NZ623341B2 - Compounds for improved viral transduction - Google Patents
Compounds for improved viral transduction Download PDFInfo
- Publication number
- NZ623341B2 NZ623341B2 NZ623341A NZ62334112A NZ623341B2 NZ 623341 B2 NZ623341 B2 NZ 623341B2 NZ 623341 A NZ623341 A NZ 623341A NZ 62334112 A NZ62334112 A NZ 62334112A NZ 623341 B2 NZ623341 B2 NZ 623341B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- cells
- pge2
- cell
- stem
- acid
- Prior art date
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- 150000001875 compounds Chemical class 0.000 title claims abstract description 117
- 238000010361 transduction Methods 0.000 title claims abstract description 85
- 230000026683 transduction Effects 0.000 title claims abstract description 85
- 230000003612 virological effect Effects 0.000 title description 58
- 230000001976 improved effect Effects 0.000 title description 8
- 210000004027 cell Anatomy 0.000 claims abstract description 570
- 210000000130 stem cell Anatomy 0.000 claims abstract description 160
- 238000000034 method Methods 0.000 claims abstract description 128
- 150000003180 prostaglandins Chemical class 0.000 claims abstract description 98
- 102000008866 Prostaglandin E receptors Human genes 0.000 claims abstract description 90
- 108010088540 Prostaglandin E receptors Proteins 0.000 claims abstract description 90
- 230000011664 signaling Effects 0.000 claims abstract description 67
- 241001430294 unidentified retrovirus Species 0.000 claims abstract description 54
- -1 16,16-dimethyl PGE2 p-(p-acetamidobenzamido) phenyl ester Chemical class 0.000 claims abstract description 51
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- XEYBRNLFEZDVAW-ARSRFYASSA-N dinoprostone Chemical compound CCCCC[C@H](O)\C=C\[C@H]1[C@H](O)CC(=O)[C@@H]1C\C=C/CCCC(O)=O XEYBRNLFEZDVAW-ARSRFYASSA-N 0.000 claims abstract description 20
- OHCQJHSOBUTRHG-KGGHGJDLSA-N FORSKOLIN Chemical compound O=C([C@@]12O)C[C@](C)(C=C)O[C@]1(C)[C@@H](OC(=O)C)[C@@H](O)[C@@H]1[C@]2(C)[C@@H](O)CCC1(C)C OHCQJHSOBUTRHG-KGGHGJDLSA-N 0.000 claims abstract description 14
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- HCZHHEIFKROPDY-UHFFFAOYSA-N kynurenic acid Chemical compound C1=CC=C2NC(C(=O)O)=CC(=O)C2=C1 HCZHHEIFKROPDY-UHFFFAOYSA-N 0.000 claims abstract description 14
- 230000001965 increasing effect Effects 0.000 claims abstract description 13
- VJGGHXVGBSZVMZ-QIZQQNKQSA-N Cloprostenol Chemical compound C([C@H](O)\C=C\[C@@H]1[C@H]([C@@H](O)C[C@H]1O)C\C=C/CCCC(O)=O)OC1=CC=CC(Cl)=C1 VJGGHXVGBSZVMZ-QIZQQNKQSA-N 0.000 claims abstract description 12
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- UNSRRHDPHVZAHH-YOILPLPUSA-N (5Z,8Z,11Z)-icosatrienoic acid Chemical compound CCCCCCCC\C=C/C\C=C/C\C=C/CCCC(O)=O UNSRRHDPHVZAHH-YOILPLPUSA-N 0.000 claims abstract description 6
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Classifications
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K35/00—Medicinal preparations containing materials or reaction products thereof with undetermined constitution
- A61K35/12—Materials from mammals; Compositions comprising non-specified tissues or cells; Compositions comprising non-embryonic stem cells; Genetically modified cells
- A61K2035/124—Materials from mammals; Compositions comprising non-specified tissues or cells; Compositions comprising non-embryonic stem cells; Genetically modified cells the cells being hematopoietic, bone marrow derived or blood cells
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
- A61K38/16—Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
- A61K38/43—Enzymes; Proenzymes; Derivatives thereof
- A61K38/46—Hydrolases (3)
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P5/00—Drugs for disorders of the endocrine system
- A61P5/38—Drugs for disorders of the endocrine system of the suprarenal hormones
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P7/00—Drugs for disorders of the blood or the extracellular fluid
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P7/00—Drugs for disorders of the blood or the extracellular fluid
- A61P7/02—Antithrombotic agents; Anticoagulants; Platelet aggregation inhibitors
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P7/00—Drugs for disorders of the blood or the extracellular fluid
- A61P7/06—Antianaemics
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- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/85—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells
- C12N15/86—Viral vectors
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- C12N15/00—Mutation or genetic engineering; DNA or RNA concerning genetic engineering, vectors, e.g. plasmids, or their isolation, preparation or purification; Use of hosts therefor
- C12N15/09—Recombinant DNA-technology
- C12N15/63—Introduction of foreign genetic material using vectors; Vectors; Use of hosts therefor; Regulation of expression
- C12N15/79—Vectors or expression systems specially adapted for eukaryotic hosts
- C12N15/85—Vectors or expression systems specially adapted for eukaryotic hosts for animal cells
- C12N15/86—Viral vectors
- C12N15/867—Retroviral vectors
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- C12N2501/00—Active agents used in cell culture processes, e.g. differentation
- C12N2501/02—Compounds of the arachidonic acid pathway, e.g. prostaglandins, leukotrienes
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- C12N2740/00—Reverse transcribing RNA viruses
- C12N2740/00011—Details
- C12N2740/10011—Retroviridae
- C12N2740/16011—Human Immunodeficiency Virus, HIV
- C12N2740/16041—Use of virus, viral particle or viral elements as a vector
- C12N2740/16043—Use of virus, viral particle or viral elements as a vector viral genome or elements thereof as genetic vector
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- C12N2810/00—Vectors comprising a targeting moiety
- C12N2810/50—Vectors comprising as targeting moiety peptide derived from defined protein
- C12N2810/60—Vectors comprising as targeting moiety peptide derived from defined protein from viruses
- C12N2810/6072—Vectors comprising as targeting moiety peptide derived from defined protein from viruses negative strand RNA viruses
- C12N2810/6081—Vectors comprising as targeting moiety peptide derived from defined protein from viruses negative strand RNA viruses rhabdoviridae, e.g. VSV
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- C12N5/00—Undifferentiated human, animal or plant cells, e.g. cell lines; Tissues; Cultivation or maintenance thereof; Culture media therefor
- C12N5/06—Animal cells or tissues; Human cells or tissues
- C12N5/0602—Vertebrate cells
- C12N5/0634—Cells from the blood or the immune system
- C12N5/0647—Haematopoietic stem cells; Uncommitted or multipotent progenitors
Abstract
method for increasing the transduction efficiency of cells cultured with a retrovirus comprising: culturing the cells and the retrovirus in a culture medium that comprises a compound that increases prostaglandin EP receptor signalling is disclosed. The cells are cultured with the retrovirus during, or prior to, culture with the compound that increases prostaglandin EP receptor signaling, and the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: PGA2; PGB2; PGD2; PGE1; PGE2; PGF2; PGI2; PGH2; PGJ2; and precursors, metabolites, derivatives and analogues thereof, or the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: 15d-PGJ2; delta12-PGJ2; 2-hydroxyheptadecatrienoic acid (HHT); Thromboxane A2; Thromboxane B2; Iloprost; Treprostinil; Travoprost; Carboprost tromethamine; Tafluprost; Latanoprost; Bimatoprost; Unoprostone isopropyl; Cloprostenol; Oestrophan; Superphan; Misoprostol; Butaprost; Linoleic Acid; 13(s)-HODE; LY171883; Mead Acid; Eicosatrienoic Acid; Epoxyeicosatrienoic Acid; ONO-259; Cay1039; a PGE2 receptor agonist; 16,16-dimethyl PGE2; 19(R)-hydroxy PGE2; 16,16-dimethyl PGE2 p-(p-acetamidobenzamido) phenyl ester; 11-deoxy-16,16-dimethyl PGE2; 9-deoxy-9-methylene-16,16-dimethyl PGE2; 9-deoxy-9-methylene PGE2; Sulprostone; PGE2serinol amide; PGE2 methyl ester; 16-phenyl tetranor PGE2; 15(S)-15-methyl PGE2; 15(R)-15-methyl PGE2; BIO; 8-bromo-cAMP; Forskolin; Bapta-AM; Fendiline; Nicardipine; Nifedipine; Pimozide; Strophanthidin; Lanatoside; L-Arg; Sodium Nitroprusside; Sodium Vanadate; Bradykinin; Mebeverine; Flurandrenolide; Atenolol; Pindolol; Gaboxadol; Kynurenic Acid; Hydralazine; Thiabendazole; Bicuclline; Vesamicol; Peruvoside; Imipramine; Chlorpropamide; 1,5-Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide; Benfotiamine; 12-Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA 94; and Chlorotrianisene, or the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: prostaglandin E2(PGE2), or 16,16-dimethyl PGE2. The cells can be stem or progenitor cells such as embryonic stem cells and induced pluripotent stem cells. g, or prior to, culture with the compound that increases prostaglandin EP receptor signaling, and the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: PGA2; PGB2; PGD2; PGE1; PGE2; PGF2; PGI2; PGH2; PGJ2; and precursors, metabolites, derivatives and analogues thereof, or the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: 15d-PGJ2; delta12-PGJ2; 2-hydroxyheptadecatrienoic acid (HHT); Thromboxane A2; Thromboxane B2; Iloprost; Treprostinil; Travoprost; Carboprost tromethamine; Tafluprost; Latanoprost; Bimatoprost; Unoprostone isopropyl; Cloprostenol; Oestrophan; Superphan; Misoprostol; Butaprost; Linoleic Acid; 13(s)-HODE; LY171883; Mead Acid; Eicosatrienoic Acid; Epoxyeicosatrienoic Acid; ONO-259; Cay1039; a PGE2 receptor agonist; 16,16-dimethyl PGE2; 19(R)-hydroxy PGE2; 16,16-dimethyl PGE2 p-(p-acetamidobenzamido) phenyl ester; 11-deoxy-16,16-dimethyl PGE2; 9-deoxy-9-methylene-16,16-dimethyl PGE2; 9-deoxy-9-methylene PGE2; Sulprostone; PGE2serinol amide; PGE2 methyl ester; 16-phenyl tetranor PGE2; 15(S)-15-methyl PGE2; 15(R)-15-methyl PGE2; BIO; 8-bromo-cAMP; Forskolin; Bapta-AM; Fendiline; Nicardipine; Nifedipine; Pimozide; Strophanthidin; Lanatoside; L-Arg; Sodium Nitroprusside; Sodium Vanadate; Bradykinin; Mebeverine; Flurandrenolide; Atenolol; Pindolol; Gaboxadol; Kynurenic Acid; Hydralazine; Thiabendazole; Bicuclline; Vesamicol; Peruvoside; Imipramine; Chlorpropamide; 1,5-Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide; Benfotiamine; 12-Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA 94; and Chlorotrianisene, or the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: prostaglandin E2(PGE2), or 16,16-dimethyl PGE2. The cells can be stem or progenitor cells such as embryonic stem cells and induced pluripotent stem cells.
Description
COMPOUNDS FOR IMPROVED VIRAL TRANSDUCTION
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims the benefit under 35 U.S.C. § 119(e) of U.S.
Provisional Application No. 61/541,736, filed September 30, 2011, which is
incorporated by reference herein in its entirety.
STATEMENT REGARDING SEQUENCE LISTING
The Sequence Listing associated with this application is provided in
text format in lieu of a paper copy, and is hereby incorporated by reference into the
specification. The name of the text file containing the Sequence Listing is
BLBD_006_01WO_ST25.txt. The text file is 30 KB, was created on September 27,
2012, and is being submitted electronically via EFS-Web.
BACKGROUND
Technical Field
The present invention generally relates to improving the efficacy of
methods of viral transduction of cells. More particularly, the present invention
provides methods and materials useful for improving the efficiency of transducing
cells, such as human hematopoietic stem cells (HSC), with viruses and/or viral vectors
that may be useful for therapeutic indications.
Description of the Related Art
The Food and Drug Administration (FDA) has not yet approved any
human gene therapy product for sale. Current gene therapy is experimental and has
not proven very successful in clinical trials. Little progress has been made since the
first gene therapy clinical trial began in 1990. In 1999, gene therapy suffered a major
setback with the death of 18-year-old Jesse Gelsinger. Jesse was participating in a
gene therapy trial for ornithine transcarboxylase deficiency (OTCD). He died from
multiple organ failures 4 days after starting the treatment. His death is believed to
have been triggered by a severe immune response to the adenovirus carrier.
Another major blow came in January 2003, when the FDA placed a
temporary halt on all gene therapy trials using retroviral vectors in blood stem cells.
FDA took this action after it learned that a second child treated in a French gene
therapy trial had developed a leukemia-like condition. Both this child and another
who had developed a similar condition in August 2002 had been successfully treated
by gene therapy for X-linked severe combined immunodeficiency disease (X-SCID),
also known as “bubble baby syndrome.” FDA’s Biological Response Modifiers
Advisory Committee (BRMAC) met at the end of February 2003 to discuss possible
measures that could allow a number of retroviral gene therapy trials for treatment of
life-threatening diseases to proceed with appropriate safeguards. In April of 2003, the
FDA eased the ban on gene therapy trials using retroviral vectors in blood stem cells.
Recently, however, several groups have led moderately successful
gene therapy trials in combating several diseases. In, 2008, UK researchers from the
UCL Institute of Ophthalmology and Moorfields Eye Hospital NIHR Biomedical
Research Centre announced a successful gene therapy clinical trial for treatment of
Leber's congenital amaurosis, a type of inherited blindness. The results showed that
the experimental treatment is safe and can improve sight (Maguire et al., N Engl J
Med. 358(21):2240 (2008)).
In 2011, Neurologix, Inc. announced positive results in a Phase 2 trial
of its investigational gene therapy for advanced Parkinson's disease (PD), NLX-P101.
Study participants who received NLX-P101 experienced statistically significant and
clinically meaningful improvements in off-medication motor scores compared to
control subjects who received sham surgery. In the trial, this benefit was seen at one
month and continued virtually unchanged throughout the six month blinded study
period. The results also demonstrated a positive safety profile for NLX-P101, with no
serious adverse events related to the gene therapy or surgical procedure reported.
Patients enrolled in the trial had moderate to advanced PD and were not adequately
responsive to current therapies.
In 2009, a French group of scientists reported using hematopoietic
stem cell mediated gene therapy to successfully treat X-linked adrenoleukodystrophy
(ALD). Autologous stem cells were removed from the patients, genetically corrected
ex vivo and then re-infused into the patients after they had received myeloablative
treatment. Over a span of 24 to 30 months of follow-up, polyclonal reconstitution,
with 9 to 14% of granulocytes, monocytes, and T and B lymphocytes expressing the
ALD protein was detected. These results strongly suggest that hematopoietic stem
cells were transduced in the patients. Beginning 14 to 16 months after infusion of the
genetically corrected cells, progressive cerebral demyelination in the two patients
stopped.
Recent progress in the field of gene therapy has raised the hope that
patients afflicted with hemoglobinopathies such as β-thalassemia and sickle cell
anemia will benefit from novel therapeutic approaches. Transplantation of
hematopoietic cells (HCs) modified with lentiviral vectors carrying the β-globin gene
has resulted in long-term correction of several mouse models of hemoglobin disorders
Imren et al., Proc Natl Acad Sci U S A. 2002;99(22):14380-14385; Malik et al., Ann
NY Acad Sci. 2005;1054:238-249; May et al., Nature. 2000;406(6791):82-86;
Pawliuk et al., Science. 2001;294(5550): 2368-2371), but in contrast, has led to
transfusion independence in only one β-thalassemic patient (Cavazzana-Calvo et al.,
Nature. 2010;467(7313):318-322).
Although the main advantages of infusing genetically modified
autologous cells are to avoid the risks of GVHD and immunosuppressive
pretransplant conditioning as well as to address the lack of compatible donors, current
therapy faces at least three substantive caveats: the requirement for toxic
myeloablation (Dunbar et al,. Hum Gene Ther. 1998;9(17):2629-2640); current gene
transfer methods are unable to transduce more than a fraction of hematopoietic stem
cells (HSCs) (Santoni de Sio and Naldini, Methods Mol Biol. 2009;506:59-70); and
various in vivo selection strategies available suffer from suboptimal efficacy and
safety (Beard et al., J Clin Invest. 2010;120(7):2345-2354; Cornetta et al., Cancer
Gene Ther. 2006;13(9):886-895; Milsom et al., Cancer Res. 2008;68(15): 6171-
6180). For example, in disorders amenable to hematopoietic stem cell therapy, e.g.,
sickle cell disease, β-thalassemia, adrenoleukodystrophy, and
adrenomyeloneuropathy, limitations include, but are not limited to, inefficient
transduction of hematopoietic stem or progenitor cells, the requirement for toxic
myelosuppressive or myeloablative therapy, and a lack of optimal methods for in vivo
selection of transduced cells.
Accordingly, there is a need in the art for improved methods of gene
therapy and, in particular, for the treatment or prevention of hematopoietic disorders.
It is an object of the present invention to offer solutions to these and other problems
that plague the art; and/or to provide the public with a useful choice.
BRIEF SUMMARY
The present disclosure generally describes methods and compositions
comprising a compound that increases prostaglandin EP receptor signaling for
improving viral transduction efficiency. The described compositions and methods
further provide safer and more reliable methods for transducing cells, such as human
hematopoietic stem cells (HSC), with viruses and/or viral vectors. The compositions
and methods are useful for therapeutic indications amenable to treatment with
hematopoietic stem cell gene therapies.
In a first embodiment, the present invention provides a method for increasing the
transduction efficiency of cells cultured with a retrovirus comprising: culturing the
cells and the retrovirus in a culture medium that comprises a compound that increases
prostaglandin EP receptor signaling,
wherein the cells are cultured with the retrovirus during, or prior to,
culture with the compound that increases prostaglandin EP receptor signaling, and
wherein the compound that increases prostaglandin EP receptor
signaling is selected from the group consisting of: PGA ; PGB ; PGD ; PGE ; PGE ;
2 2 2 1 2
PGF ; PGI ; PGH ; PGJ ; and precursors, metabolites, derivatives and analogues
2 2 2 2
thereof, or
wherein the compound that increases prostaglandin EP receptor
signaling is selected from the group consisting of: 15d-PGJ ; delta12-PGJ ; 2-
hydroxyheptadecatrienoic acid (HHT); Thromboxane A2; Thromboxane B2; Iloprost;
Treprostinil; Travoprost; Carboprost tromethamine; Tafluprost; Latanoprost;
Bimatoprost; Unoprostone isopropyl; Cloprostenol; Oestrophan; Superphan;
Misoprostol; Butaprost; Linoleic Acid; 13(s)-HODE; LY171883; Mead Acid;
Eicosatrienoic Acid; Epoxyeicosatrienoic Acid; ONO-259; Cay1039; a PGE receptor
agonist; 16,16-dimethyl PGE ; 19(R)-hydroxy PGE ; 16,16-dimethyl PGE p-(p-
2 2 2
acetamidobenzamido) phenyl ester; 11-deoxy-16,16-dimethyl PGE ; 9-deoxy
methylene-16,16-dimethyl PGE ; 9-deoxymethylene PGE ; Sulprostone; PGE
2 2 2
serinol amide; PGE methyl ester; 16-phenyl tetranor PGE ; 15(S)methyl PGE ;
2 2 2
(R)methyl PGE ; BIO; 8-bromo-cAMP; Forskolin; Bapta-AM; Fendiline;
Nicardipine; Nifedipine; Pimozide; Strophanthidin; Lanatoside; L-Arg; Sodium
Nitroprusside; Sodium Vanadate; Bradykinin; Mebeverine; Flurandrenolide;
Atenolol; Pindolol; Gaboxadol; Kynurenic Acid; Hydralazine; Thiabendazole;
Bicuclline; Vesamicol; Peruvoside; Imipramine; Chlorpropamide; 1,5-
Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide; Benfotiamine; 12-
Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA 94; and
Chlorotrianisene, or
wherein the compound that increases prostaglandin EP receptor
signaling is selected from the group consisting of: prostaglandin E2(PGE ), or 16,16-
dimethyl PGE
Also contemplated, in part, is a method for increasing the transduction
efficiency of cells cultured with a retrovirus that comprises culturing the cells and the
retrovirus in a culture medium that comprises one or more compounds that increase
prostaglandin EP receptor signaling. In one embodiment, the compound is a small
molecule.
In one embodiment, the cells are stem or progenitor cells.
In a particular embodiment, the stem or progenitor cells are selected
from the group consisting of: embryonic stem cells and induced pluripotent stem
cells.
In a further embodiment, the stem or progenitor cell are selected from
the group consisting of: mesenchymal stem cells, hematopoietic stem cells, neuronal
stem cells, retinal stem cells, cardiac muscle stem cells, skeletal muscle stem cells,
adipose tissue derived stem cells, chondrogenic stem cells, liver stem cells, kidney
stem cells, and pancreatic stem cells.
In a certain embodiment, the stem or progenitor cells are hematopoietic
stem or progenitor cells.
In an additional embodiment, the cells are selected from the group
consisting of: osteoblasts, chondrocytes, adipocytes, skeletal muscle, cardiac muscle,
neurons, astrocytes, oligodendrocytes, Schwann cells, retinal cells, corneal cells, skin
cells, monocytes, macrophages, neutrophils, basophils, eosinophils, erythrocytes,
megakaryocytes, dendritic cells, T-lymphocytes, B-lymphocytes, NK-cells, gastric
cells, intestinal cells, smooth muscle cells, vascular cells, bladder cells, pancreatic
alpha cells, pancreatic beta cells, pancreatic delta cells, hepatocytes, renal cells,
adrenal cells, and lung cells.
In a further particular embodiment, the cells are hematopoietic stem or
hematopoietic progenitor cells.
In one embodiment, at least about 50% of the hematopoietic stem or
progenitor cells are transduced.
In another embodiment, at least about 75% of the hematopoietic stem
or progenitor cells are transduced.
In yet another embodiment, at least about 90% of the hematopoietic
stem or progenitor cells are transduced.
In particular embodiments, any of the compositions or methods
disclosed herein, comprise one or more compounds that increases prostaglandin EP
receptor signaling selected from the group consisting of: PGA ; PGB ; PGD ; PGE ;
2 2 2 1
PGE ; PGF ; PGI ; PGH ; PGJ ; and precursors, metabolites, derivatives and
2 2 2 2 2
analogues thereof.
In certain embodiments, any of the compositions or methods disclosed
herein, comprise one or more compounds that increases prostaglandin EP receptor
signaling selected from the group consisting of: 15d-PGJ ; delta12-PGJ ; 2-
hydroxyheptadecatrienoic acid (HHT); Thromboxane A2; Thromboxane B2; Iloprost;
Treprostinil; Travoprost; Carboprost tromethamine; Tafluprost; Latanoprost;
Bimatoprost; Unoprostone isopropyl; Cloprostenol; Oestrophan; Superphan;
Misoprostol; Butaprost; Linoleic Acid; 13(s)-HODE; LY171883; Mead Acid;
Eicosatrienoic Acid; Epoxyeicosatrienoic Acid; ONO-259; Cay1039; a PGE receptor
agonist; 16,16-dimethyl PGE ; 19(R)-hydroxy PGE ; 16,16-dimethyl PGE p-(p-
2 2 2
acetamidobenzamido) phenyl ester; 11-deoxy-16,16-dimethyl PGE ; 9-deoxy
methylene-16,16-dimethyl PGE ; 9-deoxymethylene PGE ; Sulprostone; PGE
2 2 2
serinol amide; PGE methyl ester; 16-phenyl tetranor PGE ; 15(S)methyl PGE ;
2 2 2
(R)methyl PGE ; Corey alcohol-A; Corey alcohol-B; Corey diol; BIO; 8-
bromo-cAMP; Forskolin; Bapta-AM; Fendiline; Nicardipine; Nifedipine; Pimozide;
Strophanthidin; Lanatoside; L-Arg; Sodium Nitroprusside; Sodium Vanadate;
Bradykinin; Mebeverine; Flurandrenolide; Atenolol; Pindolol; Gaboxadol; Kynurenic
Acid; Hydralazine; Thiabendazole; Bicuclline; Vesamicol; Peruvoside; Imipramine;
Chlorpropamide; 1,5-Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide;
Benfotiamine; 12-Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA
94; and Chlorotrianisene.
In some embodiments, any of the compositions or methods disclosed
herein comprise one or more compounds that increase prostaglandin EP receptor
signaling selected from the group consisting of: prostaglandin E2(PGE ), or 16,16-
dimethyl PGE .
In additional embodiments, any of the methods disclosed herein further
comprise culturing the cells and retrovirus in the presence of a histone deacetylase
(HDAC) inhibitor.
In one embodiment, the HDAC inhibitor is selected from the group
consisting of: Trichostatin A (TSA), valproic acid (VPA), sodium butyrate,
suberoylanilide hydroxamic acid (SAHA), sodium phenylbutyrate, depsipeptide,
trapoxin (TPX), cyclic hydroxamic acid-containing peptide 1 (CHAPl), MS-275,
LBH589, and PXD-101.
In various embodiments, any of the compositions or methods disclosed
herein comprise a retrovirus that is a lentivirus.
In particular embodiments, any of the compositions or methods
disclosed herein comprise a retrovirus that is a Human immunodeficiency virus (HIV)
virus.
In certain embodiments, any of the compositions or methods disclosed
herein comprise a retrovirus pseudotyped with a vesicular stomatitis virus G-protein
(VSV-G) envelope protein.
In additional embodiments, any of the methods disclosed herein
comprise culturing the cells in the presence of the compound that increases
prostaglandin EP receptor signaling prior to transduction.
In particular embodiments, the cells are cultured with the compound
that increases prostaglandin EP receptor signaling for at least about 2 hours.
In further embodiments, the cells are cultured with the compound that
increases prostaglandin EP receptor signaling for at least about 4 hours.
In certain embodiments, the cells are cultured in the presence of the
compound that increases prostaglandin EP receptor signaling during transduction.
In further embodiments, the cells are cultured in the presence of the
compound that increases prostaglandin EP receptor signaling for at least about
twenty-four hours.
In additional embodiments, the cells are cultured in the presence of the
compound that increases prostaglandin EP receptor signaling during the first twenty-
four hours of transduction.
In some embodiments, the cells are cultured in the presence of the
compound that increases prostaglandin EP receptor signaling during the first forty-
eight hours of transduction.
In particular embodiments, any of the compositions or methods
disclosed herein comprise a retrovirus that comprises a vector comprising: a left (5')
retroviral LTR; an expression control sequence operably linked to a gene of interest;
and a right (3') retroviral LTR.
In certain embodiments, any of the compositions or methods disclosed
herein comprise a retrovirus that comprises a vector comprising: a left (5') HIV-1
LTR; a Psi packaging sequence ( Ψ+); an HIV-1 central polypurine tract/DNA flap
(cPPT/FLAP); a rev response element (RRE); a β-globin promoter and a β-globin
locus control region (LCR) operably linked to a gene of interest; and a right (3')
retroviral LTR that comprises: one or more insulator elements, or a rabbit β-globin
polyA sequence (r βgpA). In various embodiments, the hematopoietic stem or
progenitor cells are to be administered to a patient suffering from a
hemoglobinopathy.
In various particular embodiments, the hemoglobinopathy is β-
thalassemia or sickle cell disease.
In certain embodiments, any of the compositions or methods disclosed
herein comprise a vector comprising: a left (5') HIV-1 LTR; a Psi ( Ψ) packaging
signal; a cPPT/FLAP; an RRE; a MND promoter, operably linked to a polynucleotide
encoding a human ABCD1 polypeptide; a right (3') HIV-1 LTR; and a rabbit β-globin
polyadenylation sequence. In various certain embodiments, the hematopoietic stem or
progenitor cells are to be administered to a patient suffering from an
adrenoleukodystrophy or an adrenomyeloneuropathy.
In various embodiments, the retrovirus is replication defective.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS
Figure 1 shows the results of a screen for compounds that promote
viral transduction of CD34+ cells. CD34+ cells were thawed and pre-stimulated with
SCF, TPO, FltL, and IL3, then transduced with GFP+ lentivirus. Cells were
additionally exposed to soluble factors at high, medium, or low concentrations (See
Table 1) either during the pre-stimulation period (0-24 hours) or during transduction
period (24-48 hours). Cells were then washed and analyzed by flow cytometry after
approximately 1 week in culture. The percentage of cells that were GFP+ was
determined and illustrated as a heat map. Grey represents approximately 45% cells
transduced, and the dynamic range was 0% (black) to ~92% (white).
BRIEF DESCRIPTION OF THE SEQUENCE IDENTIFIERS
SEQ ID NO: 1 sets forth a polynucleotide sequence of a human alpha
globin cDNA.
SEQ ID NO: 2 sets forth an amino acid sequence of a human alpha
globin polypeptide.
SEQ ID NO: 3 sets forth an amino acid sequence of a mouse alpha
globin polypeptide.
SEQ ID NO: 4 sets forth an amino acid sequence of a rat alpha globin
polypeptide.
SEQ ID NO: 5 sets forth a polynucleotide sequence of a human beta
globin cDNA.
SEQ ID NO: 6 sets forth an amino acid sequence of a human beta
globin polypeptide.
SEQ ID NO: 7 sets forth an amino acid sequence of a mutant human
beta globin polypeptide.
SEQ ID NO: 8 sets forth an amino acid sequence of a mouse beta
globin polypeptide.
SEQ ID NO: 9 sets forth an amino acid sequence of a rat beta globin
polypeptide.
SEQ ID NO: 10 sets forth a polynucleotide sequence of a human
gamma globin cDNA.
SEQ ID NO: 11 sets forth an amino acid sequence of a human gamma
globin polypeptide.
SEQ ID NO: 12 sets forth an amino acid sequence of a mouse gamma
globin polypeptide.
SEQ ID NO: 13 sets forth an amino acid sequence of a rat gamma
globin polypeptide.
SEQ ID NO: 14 sets forth a polynucleotide sequence of a human delta
globin cDNA.
SEQ ID NO: 15 sets forth an amino acid sequence of a human delta
globin polypeptide.
SEQ ID NO: 16 sets forth a cDNA sequence encoding an ACBD1
polynucleotide.
SEQ ID NO: 17 sets forth a cDNA sequence encoding an ACBD1
polynucleotide.
SEQ ID NO: 18 sets forth an amino acid sequence of an ACBD1
polypeptide.
DETAILED DESCRIPTION
A. Overview
The present disclosure generally relates to improved gene therapy
compositions and methods of using the same to treat, prevent, or ameliorate genetic
disorders. One significant challenge for gene therapy is to increase the transduction
efficiency of cell comprising the therapeutic gene that will be delivered to a subject,
where the corrected cells do not have an intrinsic selective advantage over
nontransduced cells.
The present invention is based, in part, on the unexpected discovery
that the novel cellular transduction methods of the invention can be used to expand or
increase the numbers of therapeutic cells, i.e., corrected cells, in vitro, ex vivo, or in
vivo to further increase the efficacy of gene therapy. Without wishing to be bound to
any particular theory, the present invention contemplates, in part, that by increasing
the transduction efficiency of cells, more corrected cells are generated per
transduction and thus, gene therapy methods described herein require administration
of fewer numbers of cells to provide therapeutic, preventive, or ameliorative
endpoints for the subjects receiving the gene therapy. Moreover, because a higher
number of transduced cells are delivered to the patient, myelosuppressive or
myeloablative therapy is not necessarily required to achieve therapeutic, preventive,
or ameliorative endpoints.
Accordingly, the present disclosure addresses an unmet clinical need
for improving the efficiency of gene therapy in the treatment of genetic diseases,
whereby a greater number of therapeutic cells within a transduced cell population can
be administered to a subject to provide a therapeutic, preventive, or ameliorative
effect. The disclosure specifically relates to surprisingly efficient cellular
transduction methods, vectors, and genetically engineered cells to facilitate the
desired clinical outcomes for gene therapy.
The practice of the method described herein will employ, unless
indicated specifically to the contrary, conventional methods of molecular biology and
recombinant DNA techniques within the skill of the art, many of which are described
below for the purpose of illustration. Such techniques are explained fully in the
literature. See, e.g., Sambrook, et al., Molecular Cloning: A Laboratory Manual (2nd
Edition, 1989); Maniatis et al., Molecular Cloning: A Laboratory Manual (1982);
DNA Cloning: A Practical Approach, vol. I & II (D. Glover, ed.); Oligonucleotide
Synthesis (N. Gait, ed., 1984); Nucleic Acid Hybridization (B. Hames & S. Higgins,
eds., 1985); Transcription and Translation (B. Hames & S. Higgins, eds., 1984);
Animal Cell Culture (R. Freshney, ed., 1986); A Practical Guide to Molecular
Cloning (B. Perbal, ed., 1984).
All publications, patents and patent applications cited herein are hereby
incorporated by reference in their entirety.
B. Definitions
Unless defined otherwise, all technical and scientific terms used herein
have the same meaning as commonly understood by those of ordinary skill in the art
to which the invention belongs. For the purposes of the present invention, the
following terms are defined below.
As used herein, the term “retrovirus” refers an RNA virus that reverse
transcribes its genomic RNA into a linear double-stranded DNA copy and
subsequently covalently integrates its genomic DNA into a host genome.
Retroviruses are a common tool for gene delivery (Miller, 2000, Nature. 357: 455-
460). Once the virus is integrated into the host genome, it is referred to as a
“provirus.” The provirus serves as a template for RNA polymerase II and directs the
expression of RNA molecules which encode the structural proteins and enzymes
needed to produce new viral particles.
Illustrative retroviruses include, but are not limited to: Moloney
murine leukemia virus (M-MuLV), Moloney murine sarcoma virus (MoMSV),
Harvey murine sarcoma virus (HaMuSV), murine mammary tumor virus (MuMTV),
gibbon ape leukemia virus (GaLV), feline leukemia virus (FLV), spumavirus, Friend
murine leukemia virus, Murine Stem Cell Virus (MSCV) and Rous Sarcoma Virus
(RSV)) and lentivirus.
As used herein, the term “lentivirus” refers to a group (or genus) of
complex retroviruses. Illustrative lentiviruses include, but are not limited to: HIV
(human immunodeficiency virus; including HIV type 1, and HIV type 2); visna-maedi
virus (VMV) virus; the caprine arthritis-encephalitis virus (CAEV); equine infectious
anemia virus (EIAV); feline immunodeficiency virus (FIV); bovine immune
deficiency virus (BIV); and simian immunodeficiency virus (SIV). In one
embodiment, HIV based vector backbones (i.e., HIV cis-acting sequence elements)
are preferred.
Retroviral vectors and more particularly lentiviral vectors may be used
in practicing the methods described herein. Accordingly, the term “retrovirus” or
“retroviral vector,” as used herein is meant to include “lentivirus” and “lentiviral
vectors” respectively.
The term “vector” is used herein to refer to a nucleic acid molecule
capable transferring or transporting another nucleic acid molecule. The transferred
nucleic acid is generally linked to, e.g., inserted into, the vector nucleic acid molecule.
A vector may include sequences that direct autonomous replication in a cell, or may
include sequences sufficient to allow integration into host cell DNA. Useful vectors
include, for example, plasmids (e.g., DNA plasmids or RNA plasmids), transposons,
cosmids, bacterial artificial chromosomes, and viral vectors. Useful viral vectors
include, e.g., replication defective retroviruses and lentiviruses.
As will be evident to one of skill in the art, the term “viral vector” is
widely used to refer either to a nucleic acid molecule (e.g., a transfer plasmid) that
includes virus-derived nucleic acid elements that typically facilitate transfer of the
nucleic acid molecule or integration into the genome of a cell or to a viral particle that
mediates nucleic acid transfer. Viral particles will typically include various viral
components and sometimes also host cell components in addition to nucleic acid(s).
The term viral vector may refer either to a virus or viral particle
capable of transferring a nucleic acid into a cell or to the transferred nucleic acid
itself. Viral vectors and transfer plasmids contain structural and/or functional genetic
elements that are primarily derived from a virus. The term “retroviral vector” refers
to a viral vector or plasmid containing structural and functional genetic elements, or
portions thereof, that are primarily derived from a retrovirus. The term “lentiviral
vector” refers to a viral vector or plasmid containing structural and functional genetic
elements, or portions thereof, including LTRs that are primarily derived from a
lentivirus. The term “hybrid” refers to a vector, LTR or other nucleic acid containing
both retroviral, e.g., lentiviral, sequences and non-lentiviral viral sequences. In one
embodiment, a hybrid vector refers to a vector or transfer plasmid comprising
retroviral e.g., lentiviral, sequences for reverse transcription, replication, integration
and/or packaging.
In particular embodiments, the terms “lentiviral vector,” “lentiviral
expression vector” may be used to refer to lentiviral transfer plasmids and/or
infectious lentiviral particles. Where reference is made herein to elements such as
cloning sites, promoters, regulatory elements, heterologous nucleic acids, etc., it is to
be understood that the sequences of these elements are present in RNA form in the
lentiviral particles described herein and are present in DNA form in the DNA
plasmids of the invention.
At each end of the provirus are structures called “long terminal
repeats” or “LTRs.” The term “long terminal repeat (LTR)” refers to domains of base
pairs located at the ends of retroviral DNAs which, in their natural sequence context,
are direct repeats and contain U3, R and U5 regions. LTRs generally provide
functions fundamental to the expression of retroviral genes (e.g., promotion, initiation
and polyadenylation of gene transcripts) and to viral replication. The LTR contains
numerous regulatory signals including transcriptional control elements,
polyadenylation signals and sequences needed for replication and integration of the
viral genome. The viral LTR is divided into three regions called U3, R and U5. The
U3 region contains the enhancer and promoter elements. The U5 region is the
sequence between the primer binding site and the R region and contains the
polyadenylation sequence. The R (repeat) region is flanked by the U3 and U5
regions. The LTR composed of U3, R and U5 regions and appears at both the 5' and
3' ends of the viral genome. Adjacent to the 5' LTR are sequences necessary for
reverse transcription of the genome (the tRNA primer binding site) and for efficient
packaging of viral RNA into particles (the Psi site).
As used herein, the term “packaging signal” or “packaging sequence”
refers to sequences located within the retroviral genome which are required for
insertion of the viral RNA into the viral capsid or particle, see e.g., Clever et al.,
1995. J. of Virology, Vol. 69, No. 4; pp. 2101–2109. Several retroviral vectors use
the minimal packaging signal (also referred to as the psi [ Ψ] or [ Ψ ] sequence) needed
for encapsidation of the viral genome. Thus, as used herein, the terms “packaging
sequence,” “packaging signal,” “psi” and the symbol “ Ψ,” are used in reference to the
non-coding sequence required for encapsidation of retroviral RNA strands during
viral particle formation.
In various embodiments, vectors comprise modified 5' LTR and/or 3'
LTRs. Modifications of the 3' LTR are often made to improve the safety of lentiviral
or retroviral systems by rendering viruses replication-defective. As used herein, the
term “replication-defective” refers to virus that is not capable of complete, effective
replication such that infective virions are not produced (e.g., replication-defective
lentiviral progeny). The term “replication-competent” refers to wild-type virus or
mutant virus that is capable of replication, such that viral replication of the virus is
capable of producing infective virions (e.g., replication-competent lentiviral progeny).
“Self-inactivating” (SIN) vectors refers to replication-defective
vectors, e.g., retroviral or lentiviral vectors, in which the right (3') LTR enhancer-
promoter region, known as the U3 region, has been modified (e.g., by deletion and/or
substitution) to prevent viral transcription beyond the first round of viral replication.
This is because the right (3') LTR U3 region is used as a template for the left (5') LTR
U3 region during viral replication and, thus, the viral transcript cannot be made
without the U3 enhancer-promoter. In a further embodiment of the invention, the 3'
LTR is modified such that the U5 region is replaced, for example, with a heterologous
or synthetic poly(A) sequence, one or more insulator elements, and/or an inducible
promoter. It should be noted that modifications to the LTRs such as modifications to
the 3' LTR, the 5' LTR, or both 3' and 5' LTRs, are also included herein.
An additional safety enhancement is provided by replacing the U3
region of the 5' LTR with a heterologous promoter to drive transcription of the viral
genome during production of viral particles. Examples of heterologous promoters
which can be used include, for example, viral simian virus 40 (SV40) (e.g., early or
late), cytomegalovirus (CMV) (e.g., immediate early), Moloney murine leukemia
virus (MoMLV), Rous sarcoma virus (RSV), and herpes simplex virus (HSV)
(thymidine kinase) promoters. Typical promoters are able to drive high levels of
transcription in a Tat-independent manner. This replacement reduces the possibility
of recombination to generate replication-competent virus because there is no complete
U3 sequence in the virus production system. In certain embodiments, the
heterologous promoter may be inducible, such that transcription of all or part of the
viral genome will occur only when one or more induction factors are present.
Induction factors include, but are not limited to, one or more chemical compounds or
physiological conditions, e.g., temperature or pH, in which the host cells are cultured.
In some embodiments, viral vectors comprise a TAR element. The
term “TAR” refers to the “trans-activation response” genetic element located in the R
region of lentiviral (e.g., HIV) LTRs. This element interacts with the lentiviral trans-
activator (tat) genetic element to enhance viral replication. However, this element is
not required in embodiments wherein the U3 region of the 5' LTR is replaced by a
heterologous promoter.
The “R region” refers to the region within retroviral LTRs beginning at
the start of the capping group (i.e., the start of transcription) and ending immediately
prior to the start of the poly A tract. The R region is also defined as being flanked by
the U3 and U5 regions. The R region plays a role during reverse transcription in
permitting the transfer of nascent DNA from one end of the genome to the other.
As used herein, the term “FLAP element” refers to a nucleic acid
whose sequence includes the central polypurine tract and central termination
sequences (cPPT and CTS) of a retrovirus, e.g., HIV-1 or HIV-2. Suitable FLAP
elements are described in U.S. Pat. No. 6,682,907 and in Zennou, et al., 2000, Cell,
101:173. During HIV-1 reverse transcription, central initiation of the plus-strand
DNA at the central polypurine tract (cPPT) and central termination at the central
termination sequence (CTS) lead to the formation of a three-stranded DNA structure:
the HIV-1 central DNA flap. While not wishing to be bound by any theory, the DNA
flap may act as a cis-active determinant of lentiviral genome nuclear import and/or
may increase the titer of the virus. In particular embodiments, the retroviral or
lentiviral vector backbones comprise one or more FLAP elements upstream or
downstream of the heterologous genes of interest in the vectors. For example, in
particular embodiments a transfer plasmid includes a FLAP element. In one
embodiment, a vector described herein comprises a FLAP element isolated from HIV-
In one embodiment, retroviral or lentiviral transfer vectors comprise
one or more export elements. The term “export element” refers to a cis-acting post-
transcriptional regulatory element which regulates the transport of an RNA transcript
from the nucleus to the cytoplasm of a cell. Examples of RNA export elements
include, but are not limited to, the human immunodeficiency virus (HIV) rev response
element (RRE) (see e.g., Cullen et al., 1991. J. Virol. 65: 1053; and Cullen et al.,
1991. Cell 58: 423), and the hepatitis B virus post-transcriptional regulatory element
(HPRE). Generally, the RNA export element is placed within the 3' UTR of a gene,
and can be inserted as one or multiple copies.
In particular embodiments, expression of heterologous sequences in
viral vectors is increased by incorporating posttranscriptional regulatory elements,
efficient polyadenylation sites, and optionally, transcription termination signals into
the vectors. A variety of posttranscriptional regulatory elements can increase
expression of a heterologous nucleic acid at the protein, e.g., woodchuck hepatitis
virus posttranscriptional regulatory element (WPRE; Zufferey et al., 1999, J. Virol.,
73:2886); the posttranscriptional regulatory element present in hepatitis B virus
(HPRE) (Huang and Yen, 1995, Mol. Cell. Biol., 5:3864); and the like (Liu et al.,
1995, Genes Dev., 9:1766). In particular embodiments, vectors of the invention lack
or do not comprise a posttranscriptional regulatory element such as a WPRE or HPRE
because in some instances these elements increase the risk of cellular transformation
and/or do not substantially or significantly increase the amount of mRNA transcript or
increase mRNA stability. Therefore, in some embodiments, vectors described herein
lack or do not comprise a WPRE or HPRE as an added safety measure.
Elements directing the efficient termination and polyadenylation of the
heterologous nucleic acid transcripts increases heterologous gene expression.
Transcription termination signals are generally found downstream of the
polyadenylation signal. The term “polyA site” or “polyA sequence” as used herein
denotes a DNA sequence which directs both the termination and polyadenylation of
the nascent RNA transcript by RNA polymerase II. Efficient polyadenylation of the
recombinant transcript is desirable as transcripts lacking a poly A tail are unstable and
are rapidly degraded. Illustrative examples of polyA signals that can be used in a
vector of the invention, include an ideal polyA sequence (e.g., AATAAA, ATTAAA
AGTAAA), a bovine growth hormone polyA sequence (BGHpA), a rabbit β-globin
polyA sequence (r βgpA), or another suitable heterologous or endogenous polyA
sequence known in the art.
In certain embodiments, a retroviral or lentiviral vector further
comprises one or more insulator elements. Insulators elements may contribute to
protecting lentivirus-expressed sequences, e.g., therapeutic polypeptides, from
integration site effects, which may be mediated by cis-acting elements present in
genomic DNA and lead to deregulated expression of transferred sequences (i.e.,
position effect; see, e.g., Burgess-Beusse et al., 2002, Proc. Natl. Acad. Sci., USA,
99:16433; and Zhan et al., 2001, Hum. Genet., 109:471). In some embodiments,
transfer vectors comprise one or more insulator element the 3 ′ LTR and upon
integration of the provirus into the host genome, the provirus comprises the one or
more insulators at both the 5 ′ LTR or 3 ′ LTR, by virtue of duplicating the 3 ′ LTR.
Suitable insulators for use herein include, but are not limited to, the chicken β-globin
insulator (see Chung et al., 1993. Cell 74:505; Chung et al., 1997. PNAS 94:575; and
Bell et al., 1999. Cell 98:387, incorporated by reference herein). Examples of
insulator elements include, but are not limited to, an insulator from an β-globin locus,
such as chicken HS4.
According to certain specific embodiments described herein, most or
all of the viral vector backbone sequences are derived from a lentivirus, e.g., HIV-1.
However, it is to be understood that many different sources of lentiviral sequences can
be used, and numerous substitutions and alterations in certain of the lentiviral
sequences may be accommodated without impairing the ability of a transfer vector to
perform the functions described herein. Moreover, a variety of lentiviral vectors are
known in the art, see Naldini et al., (1996a, 1996b, and 1998); Zufferey et al., (1997);
Dull et al., 1998, U.S. Pat. Nos. 6,013,516; and 5,994,136, many of which may be
adapted to produce a viral vector or transfer plasmid of the present invention.
As used herein, the term “compound” encompasses small organic
molecule, prostaglandins, cAMP enhancers, Wnt pathway agonists, cAMP/PI3K/AKT
pathway agonists, Ca2 second messenger pathway agonists, nitric oxide
(NO)/angiotensin signaling agonists and inorganic chemicals, including without
limitation, all analogs and derivatives thereof.
A “small molecule,” “small organic molecule,” or “small molecule
compound” refers to a low molecular weight compound that has a molecular weight
of less than about 5 kD, less than about 4 kD, less than about 3 kD, less than about 2
kD, less than about 1 kD, or less than about .5kD. In particular embodiments, small
molecules can include, nucleic acids, peptides, peptidomimetics, peptoids, other small
organic compounds or drugs, and the like. Libraries of chemical and/or biological
mixtures, such as fungal, bacterial, or algal extracts, are known in the art and can be
screened with any of the assays of the invention. Examples of methods for the
synthesis of molecular libraries can be found in: (Carell et al., 1994a; Carell et al.,
1994b; Cho et al., 1993; DeWitt et al., 1993; Gallop et al., 1994; Zuckermann et al.,
1994).
Libraries of compounds may be presented in solution (Houghten et al.,
1992) or on beads (Lam et al., 1991), on chips (Fodor et al., 1993), bacteria, spores
(Ladner et al., U.S. Pat. No. 5,223,409, 1993), plasmids (Cull et al., 1992) or on
phage (Cwirla et al., 1990; Devlin et al., 1990; Felici et al., 1991; Ladner et al., U.S.
Pat. No. 5,223,409, 1993; Scott and Smith, 1990). The methods disclosed herein
encompasses the use of different libraries for the identification of small molecules that
increase prostaglandin EP receptor signaling at any point in the cell signaling
pathway. Libraries useful for the purposes of the methods described herein include,
but are not limited to, (1) chemical libraries, (2) natural product libraries, and (3)
combinatorial libraries comprised of random peptides, oligonucleotides and/or
organic molecules.
Chemical libraries consist of structural analogs and derivatives of
known compounds or compounds that are identified as “hits” or “leads” via natural
product screening. Natural product libraries are derived from collections of
microorganisms, animals, plants, or marine organisms which are used to create
mixtures for screening by: (1) fermentation and extraction of broths from soil, plant or
marine microorganisms or (2) extraction of plants or marine organisms. Natural
product libraries include polyketides, non-ribosomal peptides, and variants (non-
naturally occurring) thereof. For a review, see, Cane, D. E., et al., (1998) Science
282:63-68. Combinatorial libraries are composed of large numbers of peptides,
oligonucleotides or organic compounds as a mixture. They are relatively easy to
prepare by traditional automated synthesis methods, PCR, cloning or proprietary
synthetic methods. Of particular interest are peptide and oligonucleotide
combinatorial libraries.
More specifically, a combinatorial chemical library is a collection of
diverse chemical compounds generated by either chemical synthesis or biological
synthesis, by combining a number of chemical “building blocks” such as reagents.
For example, a linear combinatorial chemical library such as a polypeptide library is
formed by combining a set of chemical building blocks (amino acids) in every
possible way for a given compound length (i.e., the number of amino acids in a
polypeptide compound). Millions of chemical compounds can be synthesized through
such combinatorial mixing of chemical building blocks.
For a review of combinatorial chemistry and libraries created
therefrom, see Huc, I. and Nguyen, R. (2001) Comb. Chem. High Throughput Screen
4:53-74; Lepre,C A. (2001) Drug Discov. Today 6:133-140; Peng, S. X. (2000)
Biomed. Chromatogr. 14:430-441; Bohm, H. J. and Stahl, M. (2000) Curr. Opin.
Chem. Biol. 4:283-286; Barnes,C and Balasubramanian, S. (2000) Curr. Opin. Chem.
Biol. 4:346-350; Lepre, Enjalbal,C, et al., (2000) Mass Septrom Rev. 19:139-161;
Hall, D. G., (2000) Nat. Biotechnol. 18:262-262; Lazo, J. S., and Wipf, P. (2000) J.
Pharmacol. Exp. Ther. 293:705-709; Houghten, R. A., (2000) Ann. Rev. Pharmacol.
Toxicol. 40:273-282; Kobayashi, S. (2000) Curr. Opin. Chem. Biol. (2000) 4:338-
345; Kopylov, A. M. and Spiridonova, V. A. (2000) Mol. Biol. (Mosk) 34:1097-1113;
Weber, L. (2000) Curr. Opin. Chem. Biol. 4:295-302; Dolle, R. E. (2000) J. Comb.
Chem. 2:383-433; Floyd,C D., et al., (1999) Prog. Med. Chem. 36:91-168; Kundu, B.,
et al., (1999) Prog. Drug Res. 53:89-156; Cabilly, S. (1999) Mol. Biotechnol. 12:143-
148; Lowe, G. (1999) Nat. Prod. Rep. 16:641-651; Dolle, R. E. and Nelson, K. H.
(1999) J. Comb. Chem. 1:235-282; Czarnick, A. W. and Keene, J. D. (1998) Curr.
Biol. 8:R705-R707; Dolle, R. E. (1998) Mol. Divers. 4:233-256; Myers, P. L., (1997)
Curr. Opin. Biotechnol. 8:701-707; and Pluckthun, A. and Cortese, R. (1997) Biol.
Chem. 378:443.
Devices for the preparation of combinatorial libraries are commercially
available (see, e.g., 357 MPS, 390 MPS, Advanced Chem Tech, Louisville Ky.,
Symphony, Rainin, Woburn, Mass., 433A Applied Biosystems, Foster City, Calif.,
9050 Plus, Millipore, Bedford, Mass.). In addition, numerous combinatorial libraries
are themselves commercially available (see, e.g., ComGenex, Princeton, N.J., Asinex,
Moscow, Ru, Tripos, Inc., St. Louis, Mo., ChemStar, Ltd., Moscow, RU, 3D
Pharmaceuticals, Exton, Pa., Martek Biosciences, Columbia, Md., etc.).
As used herein, the term “metabolic precursor” refers to a form of a
compound that metabolizes into a desired compound.
As used herein, the term “metabolite” refers to a resultant form of a
compound that has been metabolized.
In reference to chemicals, such as organic chemicals, “analog” or
“derivative” relates to a chemical molecule that is similar to another chemical
substance in structure and function, often differing structurally by a single element or
group, but may differ by differ by modification of more than one group (e.g., 2, 3, or
4 groups) if it retains the same function as the parental chemical. Such modifications
are routine to persons skilled in the art, and include, for example, additional or
substituted chemical moieties, such as esters or amides of an acid, protecting groups
such as a benzyl group for an alcohol or thiol, and tert-butoxylcarbonyl groups for an
amine. Also included are modifications to alkyl side chains, such as alkyl
substitutions (e.g., methyl, dimethyl, ethyl, etc.), modifications to the level of
saturation or unsaturation of side chains, and the addition of modified groups such as
substituted phenyl and phenoxy. Derivatives may also include conjugates, such as
biotin or avidin moieties, enzymes such as horseradish peroxidase and the like, and
including radio-labeled, bioluminescent, chemoluminescent, or fluorescent moieties.
Also, moieties may be added to the agents described herein to alter their
pharmacokinetic properties, such as to increase half-life in vivo or ex vivo, or to
increase their cell penetration properties, among other desirable properties. Also
included are prodrugs, which are known to enhance numerous desirable qualities of
pharmaceuticals (e.g., solubility, bioavailability, manufacturing, etc.) (see, e.g.,
WO/2006/047476 for exemplary EP agonist prodrugs, which is incorporated by
reference for its disclosure of such agonists).
As used herein, the terms “polynucleotide” or “nucleic acid” refers to
messenger RNA (mRNA), RNA, genomic RNA (gRNA), plus strand RNA (RNA(+)),
minus strand RNA (RNA(-)), genomic DNA (gDNA), complementary DNA (cDNA)
or DNA. Polynucleotides include single and double stranded polynucleotides.
Preferably, polynucleotides of the invention include polynucleotides or variants
having at least about 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%,
97%, 98%, 99% or 100% sequence identity to any of the reference sequences
described herein (see, e.g., Sequence Listing), typically where the variant maintains at
least one biological activity of the reference sequence. In various illustrative
embodiments, the present disclosure contemplates, in part, viral vector and transfer
plasmid polynucleotide sequences and compositions comprising the same. In
particular embodiments, described are polynucleotides encoding one or more
therapeutic polypeptides and/or other genes of interest. In particular embodiments,
described are polynucleotides encoding a globin polypeptide or an ATP-binding
cassette, sub-family D (ALD), member 1 (ABCD1) polypeptide, as discussed
elsewhere herein.
As used herein, the terms “polynucleotide variant” and “variant” and
the like refer to polynucleotides displaying substantial sequence identity with a
reference polynucleotide sequence or polynucleotides that hybridize with a reference
sequence under stringent conditions that are defined hereinafter. These terms include
polynucleotides in which one or more nucleotides have been added or deleted, or
replaced with different nucleotides compared to a reference polynucleotide. In this
regard, it is well understood in the art that certain alterations inclusive of mutations,
additions, deletions and substitutions can be made to a reference polynucleotide
whereby the altered polynucleotide retains the biological function or activity of the
reference polynucleotide.
As used herein, the term “isolated” means material, e.g., a
polynucleotide, a polypeptide, a cell, that is substantially or essentially free from
components that normally accompany it in its native state. In particular embodiments,
the term “obtained” or “derived” is used synonymously with isolated. For example,
an “isolated polynucleotide,” as used herein, refers to a polynucleotide that has been
purified from the sequences which flank it in a naturally-occurring state, e.g., a DNA
fragment that has been removed from the sequences that are normally adjacent to the
fragment.
Terms that describe the orientation of polynucleotides include: 5'
(normally the end of the polynucleotide having a free phosphate group) and 3'
(normally the end of the polynucleotide having a free hydroxyl (OH) group).
Polynucleotide sequences can be annotated in the 5' to 3' orientation or the 3' to 5'
orientation.
The terms “complementary” and “complementarity” refer to
polynucleotides (i.e., a sequence of nucleotides) related by the base-pairing rules.
For example, the complementary strand of the DNA sequence 5' A G T C A T G 3' is
3' T C A G T A C 5'. The latter sequence is often written as the reverse complement
with the 5' end on the left and the 3' end on the right, 5' C A T G A C T 3'. A
sequence that is equal to its reverse complement is said to be a palindromic sequence.
Complementarity can be “partial,” in which only some of the nucleic acids’ bases are
matched according to the base pairing rules. Or, there can be “complete” or “total”
complementarity between the nucleic acids.
The term “nucleic acid cassette” as used herein refers to genetic
sequences within the vector which can express an RNA, and subsequently a
polypeptide. In one embodiment, the nucleic acid cassette contains a gene(s)-of-
interest, e.g., a polynucleotide(s)-of-interest. In another embodiment, the nucleic acid
cassette contains one or more expression control sequences and a gene(s)-of-interest,
e.g., a polynucleotide(s)-of-interest. Vectors may comprise one, two, three, four, five
or more nucleic acid cassettes. The nucleic acid cassette is positionally and
sequentially oriented within the vector such that the nucleic acid in the cassette can be
transcribed into RNA, and when necessary, translated into a protein or a polypeptide,
undergo appropriate post-translational modifications required for activity in the
transformed cell, and be translocated to the appropriate compartment for biological
activity by targeting to appropriate intracellular compartments or secretion into
extracellular compartments. Preferably, the cassette has its 3' and 5' ends adapted for
ready insertion into a vector, e.g., it has restriction endonuclease sites at each end. In
a preferred embodiment of the invention, the nucleic acid cassette contains the
sequence of a therapeutic gene used to treat, prevent, or ameliorate a genetic disorder,
such as a hematopoietic disorder. The cassette can be removed and inserted into a
plasmid or viral vector as a single unit.
Polynucleotides include a polynucleotide(s)-of-interest. As used
herein, the term “polynucleotide(s)-of-interest” refers to one or more polynucleotides,
e.g., a polynucleotide encoding a polypeptide (i.e., a polypeptide-of-interest), inserted
into an expression vector that is desired to be expressed. In preferred embodiments,
vectors and/or plasmids of the present invention comprise one or more
polynucleotides-of-interest, e.g., a globin gene or ABCD1 gene. In certain
embodiments, a polynucleotide-of-interest encodes a polypeptide that provides a
therapeutic effect in the treatment, prevention, or amelioration of a hematopoietic
disease or disorder, which may be referred to as a “therapeutic polypeptide,” e.g., a
globin gene. See, for example US Patents 6,051,402 and 7,901,671, the full
disclosure and claims of which are specifically incorporated herein by reference. See
e.g., SEQ ID NOs: 1, 5, 10, and 14.
In certain other embodiments, a polynucleotide-of-interest encodes a
polypeptide that provides a therapeutic effect in the treatment, prevention, or
amelioration of an adrenoleukodystrophy or adrenomyeloneuropathy, which may be
referred to as a “therapeutic polypeptide,” e.g., an ABCD1 gene. See, e.g., SEQ ID
NOs: 16-17. See, for example, US Patents 5,869,039; and 6,013,769, the full
disclosure and claims of which are specifically incorporated herein by reference.
The term “globin” as used herein, means all proteins or protein
subunits that are capable of covalently or noncovalently binding a heme moiety, and
can therefore transport or store oxygen. Subunits of vertebrate and invertebrate
hemoglobins, vertebrate and invertebrate myoglobins or mutants thereof are included
by the term globin. Examples of globins include α-globin or variant thereof, β-globin
or variant thereof, a γ-globin or a variant thereof, and δ-globin or a variant thereof.
In one embodiment, the polynucleotide-of-interest is a gene that
encodes a polypeptide that provides a therapeutic function for the treatment of a
hemoglobinopathy, e.g., α-globin, β-globin or β-globinA-T87Q. Polynucleotides-of-
interest, and polypeptides encoded therefrom, include both polynucleotides that
encode wild-type polypeptides, as well as functional variants and fragments thereof.
In particular embodiments, a functional variant has at least 80%, at least 90%, at least
95%, or at least 99% identity to a corresponding wild-type reference polynucleotide
or polypeptide sequence. In certain embodiments, a functional variant or fragment
has at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least a
100%, or at least 110% or more of a biological activity of a corresponding wild-type
polypeptide. Representative polynucleotides sequences suitable for use in the present
invention include, but are not limited to, polynucleotides encoding α-globin, β-globin,
and β-globinA-T87Q.
The polynucleotides described herein, regardless of the length of the
coding sequence itself, may be combined with other DNA sequences, such as
promoters and/or enhancers, untranslated regions (UTRs), Kozak sequences,
polyadenylation signals, additional restriction enzyme sites, multiple cloning sites,
internal ribosomal entry sites (IRES), recombinase recognition sites (e.g., LoxP, FRT,
and Att sites), termination codons, transcriptional termination signals, and
polynucleotides encoding self-cleaving polypeptides, epitope tags, as disclosed
elsewhere herein or as known in the art, such that their overall length may vary
considerably. It is therefore contemplated that a polynucleotide fragment of almost
any length may be employed, with the total length preferably being limited by the
ease of preparation and use in the intended recombinant DNA protocol.
The term “expression control sequence” refers to a polynucleotide
sequence that comprises one or more promoters, enhancers, or other transcriptional
control elements or combinations thereof that are capable of directing, increasing,
regulating, or controlling the transcription or expression of an operatively linked
polynucleotide. In particular embodiments, vectors described herein comprise one or
more expression control sequences that are specific to particular cells, cell types, or
cell lineages e.g., target cells; that is, expression of polynucleotides operatively linked
to an expression control sequence specific to particular cells, cell types, or cell
lineages is expressed in target cells and not in other non-target cells. Each one of the
one or more expression control sequences in a vector that are cell specific may
express in the same or different cell types depending on the therapy desired. In
preferred embodiments, vectors comprise one or more expression control sequences
specific to hematopoietic cells, e.g., hematopoietic stem or progenitor cells. In other
preferred embodiments, vectors comprise one or more expression control sequences
specific to erythroid cells.
The term “promoter” as used herein refers to a recognition site of a
polynucleotide (DNA or RNA) to which an RNA polymerase binds. The term
“enhancer” refers to a segment of DNA which contains sequences capable of
providing enhanced transcription and in some instances can function independent of
their orientation relative to another control sequence. An enhancer can function
cooperatively or additively with promoters and/or other enhancer elements. The term
“promoter/enhancer” refers to a segment of DNA which contains sequences capable
of providing both promoter and enhancer functions.
In particular embodiments, a vector described herein comprises
exogenous, endogenous, or heterologous control sequences such as promoters and/or
enhancers. An “endogenous” control sequence is one which is naturally linked to a
given gene in the genome. An “exogenous” control sequence is one which is placed
in juxtaposition to a gene by means of genetic manipulation (i.e., molecular biological
techniques) such that transcription of that gene is directed by the linked
enhancer/promoter. A “heterologous” control sequence is an exogenous sequence
that is from a different species than the cell being genetically manipulated. A
“synthetic” control sequence may comprise elements of one more endogenous and/or
exogenous sequences, and/or sequences determined in vitro or in silico that provide
optimal promoter and/or enhancer activity for the particular gene therapy.
The term “operably linked”, refers to a juxtaposition wherein the
components described are in a relationship permitting them to function in their
intended manner. In one embodiment, the term refers to a functional linkage between
a nucleic acid expression control sequence (such as a promoter, and/or enhancer or
other expression control sequence) and a second polynucleotide sequence, e.g., a
polynucleotide-of-interest, wherein the expression control sequence directs
transcription of the nucleic acid corresponding to the second sequence.
As used herein, the term “constitutive expression control sequence”
refers to a promoter, enhancer, or promoter/enhancer that continually or continuously
allows for transcription of an operably linked sequence. A constitutive expression
control sequence may be a “ubiquitous” promoter, enhancer, or promoter/enhancer
that allows expression in a wide variety of cell and tissue types or a “cell specific,”
“cell type specific,” “cell lineage specific,” or “tissue specific” promoter, enhancer, or
promoter/enhancer that allows expression in a restricted variety of cell and tissue
types, respectively. Illustrative ubiquitous expression control sequences include, but
are not limited to, a cytomegalovirus (CMV) immediate early promoter, a viral simian
virus 40 (SV40) (e.g., early or late), a Moloney murine leukemia virus (MoMLV)
LTR promoter, a Rous sarcoma virus (RSV) LTR, a herpes simplex virus (HSV)
(thymidine kinase) promoter, H5, P7.5, and P11 promoters from vaccinia virus, an
elongation factor 1-alpha (EF1a) promoter, early growth response 1 (EGR1), ferritin
H (FerH), ferritin L (FerL), Glyceraldehyde 3-phosphate dehydrogenase (GAPDH),
eukaryotic translation initiation factor 4A1 (EIF4A1), heat shock 70kDa protein 5
(HSPA5), heat shock protein 90kDa beta, member 1 (HSP90B1), heat shock protein
70kDa (HSP70), β-kinesin ( β-KIN), the human ROSA 26 locus (Irions et al., (2007)
Nature Biotechnology 25, 1477 - 1482), a Ubiquitin C promoter (UBC), a
phosphoglycerate kinase-1 (PGK) promoter, a cytomegalovirus enhancer/chicken β-
actin (CAG) promoter, and a β-actin promoter.
In a particular embodiment, it may be desirable to use a cell, cell type,
cell lineage or tissue specific expression control sequence to achieve cell type
specific, lineage specific, or tissue specific expression of a desired polynucleotide
sequence (e.g., to express a particular nucleic acid encoding a polypeptide in only a
subset of cell types, cell lineages, or tissues or during specific stages of development).
Illustrative examples of tissue specific promoters include, but are not
limited to: an B29 promoter (B cell expression), a runt transcription factor (CBFa2)
promoter (stem cell specific expression), an CD14 promoter (monocytic cell
expression), an CD43 promoter (leukocyte and platelet expression), an CD45
promoter (hematopoietic cell expression), an CD68 promoter (macrophage
expression), a CYP450 3A4 promoter (hepatocyte expression), an desmin promoter
(muscle expression), an elastase 1 promoter (pancreatic acinar cell expression, an
endoglin promoter (endothelial cell expression), a fibroblast specific protein 1
promoter (FSP1) promoter (fibroblast cell expression), a fibronectin promoter
(fibroblast cell expression), a fms-related tyrosine kinase 1 (FLT1) promoter
(endothelial cell expression), a glial fibrillary acidic protein (GFAP) promoter
(astrocyte expression), an insulin promoter (pancreatic beta cell expression), an
integrin, alpha 2b (ITGA2B) promoter (megakaryocytes), an intracellular adhesion
molecule 2 (ICAM-2) promoter (endothelial cells), an interferon beta (IFN- β)
promoter (hematopoietic cells), a keratin 5 promoter (keratinocyte expression), a
myoglobin (MB) promoter (muscle expression), a myogenic differentiation 1
(MYOD1) promoter (muscle expression), a nephrin promoter (podocyte expression),
a bone gamma-carboxyglutamate protein 2 (OG-2) promoter (osteoblast expression),
an 3-oxoacid CoA transferase 2B (Oxct2B) promoter, (haploid-spermatid expression),
a surfactant protein B (SP-B) promoter (lung expression), a synapsin promoter
(neuron expression), a Wiskott-Aldrich syndrome protein (WASP) promoter
(hematopoietic cell expression).
In one embodiment, a vector described herein comprises one or more
hematopoietic cell or tissue specific promoters and/or enhancers selected from the
group consisting of: a human β-globin promoter; a human β-globin LCR; and a
human α-globin HS40 enhancer and an ankyrin-1 promoter, operably linked to a
polynucleotide encoding a globin polypeptide.
In another embodiment, a vector described herein comprises a
promoter active in a microglial cell, operably linked to a polynucleotide encoding an
ATP-binding cassette, sub-family D, member 1 (ABCD1) polypeptide. In certain
embodiments, the promoter comprises a myeloproliferative sarcoma virus enhancer,
negative control region deleted, dl587rev primer-binding site substituted (MND)
promoter or transcriptionally active fragment thereof.
As used herein, “conditional expression” may refer to any type of
conditional expression including, but not limited to, inducible expression; repressible
expression; expression in cells or tissues having a particular physiological, biological,
or disease state, etc. This definition is not intended to exclude cell type or tissue
specific expression. Certain embodiments described herein relate to conditional
expression of a polynucleotide-of-interest, e.g., expression is controlled by subjecting
a cell, tissue, organism, etc., to a treatment or condition that causes the polynucleotide
to be expressed or that causes an increase or decrease in expression of the
polynucleotide encoded by the polynucleotide-of-interest.
Illustrative examples of inducible promoters/systems include, but are
not limited to, steroid-inducible promoters such as promoters for genes encoding
glucocorticoid or estrogen receptors (inducible by treatment with the corresponding
hormone), metallothionine promoter (inducible by treatment with various heavy
metals), MX-1 promoter (inducible by interferon), the “GeneSwitch” mifepristone-
regulatable system (Sirin et al., (2003) Gene, 323:67), the cumate inducible gene
switch (), tetracycline-dependent regulatory systems, etc.
Conditional expression can also be achieved by using a site specific
DNA recombinase. According to certain embodiments described herein the vector
comprises at least one (typically two) site(s) for recombination mediated by a site
specific recombinase. As used herein, the terms “recombinase” or “site specific
recombinase” include excisive or integrative proteins, enzymes, co-factors or
associated proteins that are involved in recombination reactions involving one or
more recombination sites (e.g., two, three, four, five, seven, ten, twelve, fifteen,
twenty, thirty, fifty, etc.), which may be wild-type proteins (see Landy, (1993)
Current Opinion in Biotechnology 3:699-707), or mutants, derivatives (e.g., fusion
proteins containing the recombination protein sequences or fragments thereof),
fragments, and variants thereof. Illustrative examples of recombinases suitable for
use in particular embodiments described herein include, but are not limited to: Cre,
Int, IHF, Xis, Flp, Fis, Hin, Gin, ΦC31, Cin, Tn3 resolvase, TndX, XerC, XerD,
TnpX, Hjc, Gin, SpCCE1, and ParA.
The vectors may comprise one or more recombination sites for any of a
wide variety of site specific recombinases. It is to be understood that the target site
for a site specific recombinase is in addition to any site(s) required for integration of a
vector, e.g., a retroviral vector or lentiviral vector. As used herein, the terms
“recombination sequence,” “recombination site,” or “site specific recombination site”
refer to a particular nucleic acid sequence to which a recombinase recognizes and
binds.
For example, one recombination site for Cre recombinase is loxP
which is a 34 base pair sequence comprising two 13 base pair inverted repeats
(serving as the recombinase binding sites) flanking an 8 base pair core sequence (see
of Sauer, B., (1994) Current Opinion in Biotechnology 5:521-527). Other
exemplary loxP sites include, but are not limited to: lox511 (Hoess et al., 1996;
Bethke and Sauer, 1997), lox5171 (Lee and Saito, 1998), lox2272 (Lee and Saito,
1998), m2 (Langer et al., 2002), lox71 (Albert et al., 1995), and lox66 (Albert et al.,
1995).
Suitable recognition sites for the FLP recombinase include, but are not
limited to: FRT (McLeod, et al., 1996), F1, F2, F3 (Schlake and Bode, 1994), F4, F5
(Schlake and Bode, 1994), FRT(LE) (Senecoff et al., 1988), FRT(RE) (Senecoff et
al., 1988).
Other examples of recognition sequences are the attB, attP, attL, and
attR sequences, which are recognized by the recombinase enzyme λ Integrase, e.g.,
phi-c31. The φC31 SSR mediates recombination only between the heterotypic sites
attB (34 bp in length) and attP (39 bp in length) (Groth et al., 2000). attB and attP,
named for the attachment sites for the phage integrase on the bacterial and phage
genomes, respectively, both contain imperfect inverted repeats that are likely bound
by φC31 homodimers (Groth et al., 2000). The product sites, attL and attR, are
effectively inert to further φC31-mediated recombination (Belteki et al., 2003),
making the reaction irreversible. For catalyzing insertions, it has been found that
attB-bearing DNA inserts into a genomic attP site more readily than an attP site into a
genomic attB site (Thyagarajan et al., 2001; Belteki et al., 2003). Thus, typical
strategies position by homologous recombination an attP-bearing “docking site” into a
defined locus, which is then partnered with an attB-bearing incoming sequence for
insertion.
As used herein, an “internal ribosome entry site” or “IRES” refers to
an element that promotes direct internal ribosome entry to the initiation codon, such
as ATG, of a cistron (a protein encoding region), thereby leading to the cap-
independent translation of the gene. See, e.g., Jackson et al., (1990) Trends Biochem
Sci 15(12):477-83) and Jackson and Kaminski. (1995) RNA 1(10):985-1000. In
particular embodiments, the vectors contemplated herein, include one or more
polynucleotides-of-interest that encode one or more polypeptides. In particular
embodiments, to achieve efficient translation of each of the plurality of polypeptides,
the polynucleotide sequences can be separated by one or more IRES sequences or
polynucleotide sequences encoding self-cleaving polypeptides.
As used herein, the term “Kozak sequence” refers to a short nucleotide
sequence that greatly facilitates the initial binding of mRNA to the small subunit of
the ribosome and increases translation. The consensus Kozak sequence is
(GCC)RCCATGG, where R is a purine (A or G) (Kozak, (1986) Cell. 44(2):283-92,
and Kozak, (1987) Nucleic Acids Res. 15(20):8125-48). In particular embodiments,
the vectors contemplated herein, comprise polynucleotides that have a consensus
Kozak sequence and that encode a desired polypeptide.
In certain embodiments, vectors comprise a selection gene, also termed
a selectable marker. Typical selection genes encode proteins that (a) confer resistance
to antibiotics or other toxins, e.g., ampicillin, neomycin, hygromycin, methotrexate,
Zeocin, Blastocidin, or tetracycline, (b) complement auxotrophic deficiencies, or (c)
supply critical nutrients not available from complex media, e.g., the gene encoding D-
alanine racemase for Bacilli. Any number of selection systems may be used to
recover transformed cell lines. These include, but are not limited to, the herpes
simplex virus thymidine kinase (Wigler et al., (1977) Cell 11:223-232) and adenine
phosphoribosyltransferase (Lowy et al., (1990) Cell 22:817-823) genes which can be
employed in tk- or aprt- cells, respectively.
In various embodiments, vectors described herein are used to increase,
establish and/or maintain the expression of one or more polypeptides, e.g., globins.
The terms “polypeptide” and “protein” are used interchangeably herein to refer to a
polymer of amino acid residues and to variants and synthetic analogues of the same.
Thus, these terms apply to amino acid polymers in which one or more amino acid
residues are synthetic non-naturally occurring amino acids, such as a chemical
analogue of a corresponding naturally occurring amino acid, as well as to naturally-
occurring amino acid polymers. Illustrative examples of globin polypeptides suitable
for use in the compositions and methods of particular embodiments described herein,
e.g., SEQ ID NOs: 2-4, 6-9, 11-13, and 15. Also, see, e.g., US Patents 6,051,402 and
7,901,671, the full disclosure and claims of which are specifically incorporated herein
by reference.
Illustrative examples of ABCD1 polypeptides suitable for use in the
compositions and methods of particular embodimentsdescribed herein, e.g., SEQ ID
NO: 18. Also, see, e.g., US Patents 5,869,039; and 6,013,769, the full disclosure and
claims of which are specifically incorporated herein by reference.
Particular embodiments described herein also include polypeptide
“variants.” The recitation polypeptide “variant” refers to polypeptides that are
distinguished from a reference polypeptide by the addition, deletion, truncations,
and/or substitution of at least one amino acid residue, and that retain a biological
activity. In certain embodiments, a polypeptide variant is distinguished from a
reference polypeptide by one or more substitutions, which may be conservative or
non-conservative, as known in the art.
In certain embodiments, a variant polypeptide includes an amino acid
sequence having at least about 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%,
91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99% or more sequence identity or
similarity to a corresponding sequence of a reference polypeptide. In certain
embodiments, amino acid additions or deletions occur at the C-terminal end and/or
the N-terminal end of the reference polypeptide.
As noted above, polypeptides described herein may be altered in
various ways including amino acid substitutions, deletions, truncations, and
insertions. Methods for such manipulations are generally known in the art. For
example, amino acid sequence variants of a reference polypeptide can be prepared by
mutations in the DNA. Methods for mutagenesis and nucleotide sequence alterations
are well known in the art. See, for example, Kunkel (1985) Proc. Natl. Acad. Sci.
USA. 82: 488-492, Kunkel et al., (1987) Methods in Enzymol, 154: 367-382, U.S. Pat.
No. 4,873,192, Watson, J. D. et al., (1987) Molecular Biology of the Gene, Fourth
Edition, Benjamin/Cummings, Menlo Park, Calif., and the references cited therein.
Guidance as to appropriate amino acid substitutions that do not affect biological
activity of the protein of interest may be found in the model of Dayhoff et al., (1978)
Atlas of Protein Sequence and Structure (Natl. Biomed. Res. Found., Washington,
D.C.).
A “host cell” includes cells transfected, infected, or transduced in vivo,
ex vivo, or in vitro with a recombinant vector or a polynucleotide of the invention.
Host cells may include packaging cells, producer cells, and cells infected with viral
vectors. In particular embodiments, host cells infected with viral vector of the
invention are administered to a subject in need of therapy. In certain embodiments,
the term “target cell” is used interchangeably with host cell and refers to transfected,
infected, or transduced cells of a desired cell type. In preferred embodiments, the
target cell is a stem cell or progenitor cell. In certain preferred embodiments, the
target cell is a somatic cell, e.g., adult stem cell, progenitor cell, or differentiated cell.
In particular preferred embodiments, the target cell is a hematopoietic cell, e.g., a
hematopoietic stem or progenitor cell. Further therapeutic target cells are discussed,
infra.
The term “stem cell” refers to a cell which is an undifferentiated cell
capable of (1) long term self -renewal, or the ability to generate at least one identical
copy of the original cell, (2) differentiation at the single cell level into multiple, and in
some instance only one, specialized cell type and (3) of in vivo functional
regeneration of tissues. Stem cells are subclassified according to their developmental
potential as totipotent, pluripotent, multipotent and oligo/unipotent. “Self-renewal”
refers a cell with a unique capacity to produce unaltered daughter cells and to generate
specialized cell types (potency). Self-renewal can be achieved in two ways.
Asymmetric cell division produces one daughter cell that is identical to the parental
cell and one daughter cell that is different from the parental cell and is a progenitor or
differentiated cell. Asymmetric cell division does not increase the number of cells.
Symmetric cell division produces two identical daughter cells. “Proliferation” or
“expansion” of cells refers to symmetrically dividing cells.
As used herein, the term “totipotent” means the ability of a cell to form
all cell lineages of an organism. For example, in mammals, only the zygote and the
first cleavage stage blastomeres are totipotent. As used herein, the term “pluripotent”
means the ability of a cell to form all lineages of the body or soma (i.e., the embryo
proper). For example, embryonic stem cells are a type of pluripotent stem cells that
are able to form cells from each of the three germs layers, the ectoderm, the
mesoderm, and the endoderm. As used herein, the term “multipotent” refers to the
ability of an adult stem cell to form multiple cell types of one lineage. For example,
hematopoietic stem cells are capable of forming all cells of the blood cell lineage,
e.g., lymphoid and myeloid cells. As used herein, the term “oligopotent” refers to the
ability of an adult stem cell to differentiate into only a few different cell types. For
example, lymphoid or myeloid stem cells are capable of forming cells of either the
lymphoid or myeloid lineages, respectively. As used herein, the term “unipotent”
means the ability of a cell to form a single cell type. For example, spermatogonial
stem cells are only capable of forming sperm cells.
As used herein, the term “progenitor” or “progenitor cells” refers to
cells have the capacity to self-renew and to differentiate into more mature cells. Many
progenitor cells differentiate along a single lineage, but may have quite extensive
proliferative capacity.
Hematopoietic stem cells (HSCs) give rise to committed hematopoietic
progenitor cells (HPCs) that are capable of generating the entire repertoire of mature
blood cells over the lifetime of an organism. The term “hematopoietic stem cell” or
“HSC” refers to multipotent stem cells that give rise to the all the blood cell types of
an organism, including myeloid (e.g., monocytes and macrophages, neutrophils,
basophils, eosinophils, erythrocytes, megakaryocytes/platelets, dendritic cells), and
lymphoid lineages (e.g., T-cells, B-cells, NK-cells), and others known in the art (See
Fei, R., et al., U.S. Patent No. 5,635,387; McGlave, et al., U.S. Patent No. 5,460,964;
Simmons, P., et al., U.S. Patent No. 5,677,136; Tsukamoto, et al., U.S. Patent No.
,750,397; Schwartz, et al., U.S. Patent No. 5,759,793; DiGuisto, et al., U.S. Patent
No. 5,681,599; Tsukamoto, et al., U.S. Patent No. 5,716,827). When transplanted
into lethally irradiated animals or humans, hematopoietic stem and progenitor cells
can repopulate the erythroid, neutrophil-macrophage, megakaryocyte and lymphoid
hematopoietic cell pool.
Large scale viral particle production is often necessary to achieve a
reasonable viral titer. Viral particles are produced by transfecting a transfer vector
into a packaging cell line that comprises viral structural and/or accessory genes, e.g.,
gag, pol, env, tat, rev, vif, vpr, vpu, vpx, or nef genes or other retroviral genes.
As used herein, the term “packaging vector” refers to an expression
vector or viral vector that lacks a packaging signal and comprises a polynucleotide
encoding one, two, three, four or more viral structural and/or accessory genes.
Typically, the packaging vectors are included in a packaging cell, and are introduced
into the cell via transfection, transduction or infection. Methods for transfection,
transduction or infection are well known by those of skill in the art. A
retroviral/lentiviral transfer vector described herein can be introduced into a
packaging cell line, via transfection, transduction or infection, to generate a producer
cell or cell line. The packaging vectors described herein can be introduced into
human cells or cell lines by standard methods including, e.g., calcium phosphate
transfection, lipofection or electroporation. In some embodiments, the packaging
vectors are introduced into the cells together with a dominant selectable marker, such
as neomycin, hygromycin, puromycin, blastocidin, zeocin, thymidine kinase, DHFR,
Gln synthetase or ADA, followed by selection in the presence of the appropriate drug
and isolation of clones. A selectable marker gene can be linked physically to genes
encoding by the packaging vector, e.g., by IRES or self cleaving viral peptides.
Viral envelope proteins (env) determine the range of host cells which
can ultimately be infected and transformed by recombinant retroviruses generated
from the cell lines. In the case of lentiviruses, such as HIV-1, HIV-2, SIV, FIV and
EIV, the env proteins include gp41 and gp120. Preferably, the viral env proteins
expressed by packaging cells described herein are encoded on a separate vector from
the viral gag and pol genes, as has been previously described.
Illustrative examples of retroviral-derived env genes which can be
employed in the invention include, but are not limited to: MLV envelopes, 10A1
envelope, BAEV, FeLV-B, RD114, SSAV, Ebola, Sendai, FPV (Fowl plague virus),
and influenza virus envelopes. Similarly, genes encoding envelopes from RNA
viruses (e.g., RNA virus families of Picornaviridae, Calciviridae, Astroviridae,
Togaviridae, Flaviviridae, Coronaviridae, Paramyxoviridae, Rhabdoviridae,
Filoviridae, Orthomyxoviridae, Bunyaviridae, Arenaviridae, Reoviridae, Birnaviridae,
Retroviridae) as well as from the DNA viruses (families of Hepadnaviridae,
Circoviridae, Parvoviridae, Papovaviridae, Adenoviridae, Herpesviridae, Poxyiridae,
and Iridoviridae) may be utilized. Representative examples include, FeLV, VEE,
HFVW, WDSV, SFV, Rabies, ALV, BIV, BLV, EBV, CAEV, SNV, ChTLV, STLV,
MPMV, SMRV, RAV, FuSV, MH2, AEV, AMV, CT10, and EIAV.
In other embodiments, envelope proteins for pseudotyping a virus
described herein include, but are not limited to any of the following virus: Influenza
A such as H1N1, H1N2, H3N2 and H5N1 (bird flu), Influenza B, Influenza C virus,
Hepatitis A virus, Hepatitis B virus, Hepatitis C virus, Hepatitis D virus, Hepatitis E
virus, Rotavirus, any virus of the Norwalk virus group, enteric adenoviruses,
parvovirus, Dengue fever virus, Monkey pox, Mononegavirales, Lyssavirus such as
rabies virus, Lagos bat virus, Mokola virus, Duvenhage virus, European bat virus 1 &
2 and Australian bat virus, Ephemerovirus, Vesiculovirus, Vesicular Stomatitis Virus
(VSV), Herpesviruses such as Herpes simplex virus types 1 and 2, varicella zoster,
cytomegalovirus, Epstein-Bar virus (EBV), human herpesviruses (HHV), human
herpesvirus type 6 and 8, Human immunodeficiency virus (HIV), papilloma virus,
murine gammaherpesvirus, Arenaviruses such as Argentine hemorrhagic fever virus,
Bolivian hemorrhagic fever virus, Sabia-associated hemorrhagic fever virus,
Venezuelan hemorrhagic fever virus, Lassa fever virus, Machupo virus, Lymphocytic
choriomeningitis virus (LCMV), Bunyaviridiae such as Crimean-Congo hemorrhagic
fever virus, Hantavirus, hemorrhagic fever with renal syndrome causing virus, Rift
Valley fever virus, Filoviridae (filovirus) including Ebola hemorrhagic fever and
Marburg hemorrhagic fever, Flaviviridae including Kaysanur Forest disease virus,
Omsk hemorrhagic fever virus, Tick-borne encephalitis causing virus and
Paramyxoviridae such as Hendra virus and Nipah virus, variola major and variola
minor (smallpox), alphaviruses such as Venezuelan equine encephalitis virus, eastern
equine encephalitis virus, western equine encephalitis virus, SARS-associated
coronavirus (SARS-CoV), West Nile virus, any encephaliltis causing virus.
In one embodiment, described herein are packaging cells which
produce recombinant retrovirus, e.g., lentivirus, pseudotyped with the VSV-G
glycoprotein.
The terms “pseudotype” or “pseudotyping” as used herein, refer to a
virus whose viral envelope proteins have been substituted with those of another virus
possessing preferable characteristics. For example, HIV can be pseudotyped with
vesicular stomatitis virus G-protein (VSV-G) envelope proteins, which allows HIV to
infect a wider range of cells because HIV envelope proteins (encoded by the env
gene) normally target the virus to CD4+ presenting cells. In a preferred embodiment
described herein, lentiviral envelope proteins are pseudotyped with VSV-G. In one
embodiment, described are packaging cells which produce recombinant retrovirus,
e.g., lentivirus, pseudotyped with the VSV-G envelope glycoprotein.
As used herein, the term “packaging cell lines” is used in reference to
cell lines that do not contain a packaging signal, but do stably or transiently express
viral structural proteins and replication enzymes (e.g., gag, pol and env) which are
necessary for the correct packaging of viral particles. Any suitable cell line can be
employed to prepare packaging cells described herein. Generally, the cells are
mammalian cells. In a particular embodiment, the cells used to produce the packaging
cell line are human cells. Suitable cell lines which can be used include, for example,
CHO cells, BHK cells, MDCK cells, C3H 10T1/2 cells, FLY cells, Psi-2 cells, BOSC
23 cells, PA317 cells, WEHI cells, COS cells, BSC 1 cells, BSC 40 cells, BMT 10
cells, VERO cells, W138 cells, MRC5 cells, A549 cells, HT1080 cells, 293 cells,
293T cells, B-50 cells, 3T3 cells, NIH3T3 cells, HepG2 cells, Saos-2 cells, Huh7
cells, HeLa cells, W163 cells, 211 cells, and 211A cells. In preferred embodiments,
the packaging cells are 293 cells, 293T cells, or A549 cells. In another preferred
embodiment, the cells are A549 cells.
As used herein, the term “producer cell line” refers to a cell line which
is capable of producing recombinant retroviral particles, comprising a packaging cell
line and a transfer vector construct comprising a packaging signal. The production of
infectious viral particles and viral stock solutions may be carried out using
conventional techniques. Methods of preparing viral stock solutions are known in the
art and are illustrated by, e.g., Y. Soneoka et al. (1995) Nucl. Acids Res. 23:628-633,
and N. R. Landau et al. (1992) J. Virol. 66:5110-5113. Infectious virus particles may
be collected from the packaging cells using conventional techniques. For example, the
infectious particles can be collected by cell lysis, or collection of the supernatant of
the cell culture, as is known in the art. Optionally, the collected virus particles may
be purified if desired. Suitable purification techniques are well known to those skilled
in the art.
By “enhance” or “promote,” or “increase” or “expand” refers generally
to the ability of the compositions and/or methods described herein to elicit, cause, or
produce higher numbers of transduced cells compared to the number of cells
transduced by either vehicle or a control molecule/composition. In one embodiment,
a hematopoietic stem cell transduced with compositions and methods described herein
comprises an increase in the number of transduced cells compared to existing
transduction compositions and methods. Increases in cell transduction, can be
ascertained using methods known in the art, such as reporter assays, RT-PCR, and cell
surface protein expression, among others. An “increased” or “enhanced” amount of
transduction is typically a “statistically significant” amount, and may include an
increase that is 1.1, 1.2, 1.5, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 30 or more times (e.g.,
500, 1000 times) (including all integers and decimal points in between and above 1,
e.g., 1.5, 1.6, 1.7. 1.8, etc.) the number of cells transduced by vehicle, a control
composition, or other transduction method.
By “decrease” or “lower,” or “lessen,” or “reduce,” or “abate” refers
generally to compositions or methods that result in comparably fewer transduced cells
compared to cells transduced with compositions and/or methods according to the
present invention. A “decrease” or “reduced” amount of transduced cells is typically
a “statistically significant” amount, and may include an decrease that is 1.1, 1.2, 1.5,
2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 30 or more times (e.g., 500, 1000 times) (including all
integers and decimal points in between and above 1, e.g., 1.5, 1.6, 1.7. 1.8, etc.) the
number of transduced cells (reference response) produced by compositions and/or
methods according to the present invention.
By “maintain,” or “preserve,” or “maintenance,” or “no change,” or
“no substantial change,” or “no substantial decrease” refers generally to a
physiological response that is comparable to a response caused by either vehicle, a
control molecule/composition, or the response in a particular cell lineage. A
comparable response is one that is not significantly different or measurable different
from the reference response.
The articles “a,” “an,” and “the” are used herein to refer to one or to
more than one (i.e. to at least one) of the grammatical object of the article. By way of
example, “an element” means one element or more than one element.
The use of the alternative (e.g., “or”) should be understood to mean
either one, both, or any combination thereof of the alternatives. As used herein, the
terms “include” and “comprise” are used synonymously.
As used herein, the term “about” or “approximately” refers to a
quantity, level, value, number, frequency, percentage, dimension, size, amount,
weight or length that varies by as much as 15%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%,
2% or 1% to a reference quantity, level, value, number, frequency, percentage,
dimension, size, amount, weight or length. In one embodiment, the term “about” or
“approximately” refers a range of quantity, level, value, number, frequency,
percentage, dimension, size, amount, weight or length ± 15%, ± 10%, ± 9%, ± 8%, ±
7%, ± 6%, ± 5%, ± 4%, ± 3%, ± 2%, or ± 1% about a reference quantity, level, value,
number, frequency, percentage, dimension, size, amount, weight or length.
Throughout this specification, unless the context requires otherwise,
the words “comprise”, “comprises” and “comprising” will be understood to imply the
inclusion of a stated step or element or group of steps or elements but not the
exclusion of any other step or element or group of steps or elements. By “consisting
of” is meant including, and limited to, whatever follows the phrase “consisting of.”
Thus, the phrase “consisting of” indicates that the listed elements are required or
mandatory, and that no other elements may be present. By “consisting essentially of”
is meant including any elements listed after the phrase, and limited to other elements
that do not interfere with or contribute to the activity or action specified in the
disclosure for the listed elements. Thus, the phrase “consisting essentially of”
indicates that the listed elements are required or mandatory, but that no other elements
are optional and may or may not be present depending upon whether or not they affect
the activity or action of the listed elements
Reference throughout this specification to “one embodiment” or “an
embodiment” means that a particular feature, structure or characteristic described in
connection with the embodiment is included in at least one embodiment of the present
invention. Thus, the appearances of the phrases “in one embodiment” or “in an
embodiment” in various places throughout this specification are not necessarily all
referring to the same embodiment. Furthermore, the particular features, structures, or
characteristics may be combined in any suitable manner in one or more embodiments.
In the following description, certain specific details are set forth in
order to provide a thorough understanding of various embodiments of the invention.
However, one skilled in the art will understand that the invention may be practiced
without these details. In addition, it should be understood that the individual vectors,
or groups of vectors, derived from the various combinations of the structures and
substituents described herein, are disclosed by the present application to the same
extent as if each vector or group of vectors was set forth individually. Thus, selection
of particular vector structures or particular substituents is within the scope of the
present disclosure.
C. Viral Vectors
Retroviral and lentiviral vectors have been tested and found to be
suitable delivery vehicles for the stable introduction of genes of interest, e.g.,
encoding therapeutic polypeptides, into the genome of a broad range of target cells.
The present disclosure contemplates, in part, improved delivery of gene therapy
vectors to a population of cells that are administered to a subject to provide gene
therapy.
Also described are transfer vectors, which may be used to practice
methods described herein. While the skilled artisan will appreciate that such transfer
vectors may be produced using a variety of different viral vectors, in particular
embodiments, the transfer vector is a retroviral vector or a lentiviral vector, in part
since lentiviral vectors are capable of providing efficient delivery, integration and
long term expression of transgenes into non-dividing cells both in vitro and in vivo. A
variety of lentiviral vectors are known in the art, see Naldini et al., (1996a, 1996b, and
1998); Zufferey et al., (1997); Dull et al., 1998, U.S. Pat. Nos. 6,013,516; and
,994,136, any of which may be adapted to produce a transfer vector described herein.
In general, these vectors are plasmid-based or virus-based, and are
configured to carry the essential sequences for transfer of a nucleic acid encoding a
therapeutic polypeptide into a host cell.
In illustrative embodiments, the retroviral vector is a lentiviral vector.
Thus, the vectors may be derived from human immunodeficiency-1 (HIV-1), human
immunodeficiency-2 (HIV-2), simian immunodeficiency virus (SIV), feline
immunodeficiency virus (FIV), bovine immunodeficiency virus (BIV), Jembrana
Disease Virus (JDV), equine infectious anemia virus (EIAV), caprine arthritis
encephalitis virus (CAEV) and the like. HIV based vector backbones (i.e., HIV cis-
acting sequence elements and HIV gag, pol and rev genes) are generally be preferred
in connection with most aspects of the present disclosure in that HIV-based constructs
are the most efficient at transduction of human cells.
Although particular illustrative embodiments include more detailed
description of vectors, compositions and methods used to correct hematopoietic
disorders, e.g., hemoglobinopathies, the invention should not be considered to be
limited by this disclosure. One having skill in the art would readily appreciate that the
principles illustrated herein can be applied to gene therapy in other systems, e.g.,
nervous system, including the eye, central nervous system, and peripheral nervous
system; the circulatory system; the muscular system; the skeletal system; organs,
including the skin, heart, lungs, pancreas, liver, kidney, intestine, and the like.
In one embodiment, described are vectors, e.g., lentiviral vectors, that
comprise an expression control sequence that directs expression of polynucleotide-of-
interest, e.g., a globin gene, in a particular cell type or cell lineage. The use of a cell
type or cell lineage expression control sequence offers safety advantages in restricting
polynucleotide expression to a desired stage of cell differentiation in a single lineage;
and thus, vectors described herein alleviate concerns dealing with ectopic expression
of polypeptides in undesired cells types.
In one non-limiting example, the expression control sequence may be a
ubiquitous expression control sequence as disclosed elsewhere herein.
In another non-limiting example, the expression control sequence may
be a stem cell specific expression control sequence that directs stem cell specific
expression of the polynucleotide–of-interest in an embryonic stem cell, a neural stem
cell, a mesenchymal stem cell, a liver stem cell, a pancreatic stem cell, a cardiac stem
cell, a kidney stem cell, or a hematopoietic stem cell.
In yet another non-limiting example, the expression control sequence
may a cell type or cell lineage specific expression control sequence that directs
expression of the polynucleotide-of-interest in a hematopoietic stem cell, a
hematopoietic progenitor cell, a myeloid cell, a lymphoid cell, a thrombopoietic
lineage, a mast cell, an erythropoietic lineage cell, a granulopoietic lineage cell, and a
monocytopoietic lineage cell.
In particular embodiments, a vector described herein may be used to
express a polynucleotide, e.g., gene-of-interest in one or more or all hematopoietic
cells including, but not limited to hematopoietic stem cells, hematopoietic progenitor
cells, myeloid progenitors, lymphoid progenitors, thrombopoietic progenitors,
erythroid progenitors, granulopoietic progenitors, monocytopoietic progenitors,
megakaryoblasts, promegakaryocytes, megakaryocytes, thrombocytes/platelets,
proerythroblasts, basophilic erythroblasts, polychromatic erythroblasts,
orthochromatic erythroblasts, polychromatic erythrocytes, erythrocytes (RBCs),
basophilic promyelocytes, basophilic myelocytes, basophilic metamyelocytes,
basophils, neutrophilic promyelocytes, neutrophilic myelocytes, neutrophilic
metamyelocytes, neutrophils, eosinophilic promyelocytes, eosinophilic myelocytes,
macrophages, dendritic cells, lymphoblasts, prolymphocytes, natural killer (NK)-cells,
small lymphocytes, T-lymphocytes, B-lymphocytes, plasma cells, and lymphoid
dendritic cells.
In preferred embodiments, a vector described herein may be used to
express a polynucleotide, e.g., gene-of-interest in one or more erythroid cells, e.g.,
proerythroblast, basophilic erythroblast, polychromatic erythroblast, orthochromatic
erythroblast, polychromatic erythrocyte, and erythrocyte (RBC).
In one embodiment, the vector comprises a hematopoietic cell
promoter, enhancer, or promoter/enhancer operably linked to a gene of interest, e.g.,
globin.
Suitable cell type or cell lineage specific expression control sequences
include, but are not limited to hematopoietic cell expression control sequences, such
as, for example, a hematopoietic stem cell promoter, and a hematopoietic progenitor
cell promoter. In embodiments where expression of the gene of interest is desired in
one or more erythroid cells, a suitable hematopoietic cell expression control sequence
can include, but is not limited to, an erythroid cell specific promoter and optionally an
erythroid cell specific enhancer, a human β-globin promoter, a human β-globin LCR,
or a human α-globin HS40 enhancer and an ankyrin-1 promoter.
In one embodiment, suitable cell type or cell lineage specific
expression control sequences include, but are not limited to a promoter active in a
microglial cell. In certain embodiments, the promoter comprises a MND promoter or
transcriptionally active fragment thereof, operably linked to a gene of interest, e.g.,
ABCD1.
The use of a cell type or cell lineage expression control sequence offers
safety advantages in restricting polynucleotide expression to this a desired stage of
cell differentiation in a single lineage; and thus, vectors described herein alleviate
concerns dealing with ectopic expression of polypeptides in undesired cells types. In
one embodiment, described is a vector comprising one or more LTRs, and an
expression control sequence operably linked to a gene of interest. In related
embodiment, the expression control sequence is an erythroid cell specific expression
control sequence is selected from the group consisting of: a human β-globin
promoter; a human β-globin LCR; and a human α-globin HS40 enhancer and an
ankyrin-1 promoter.
In various embodiments, the design of the vector will be made with the
goal of treating, preventing, or ameliorating a particular hematopoietic disease,
disorder, or condition. For example, contemplated herein are vectors for gene therapy
of hemoglobinopathies that comprise a gene of interest selected from the group
consisting of: human α-globin, human β-globin, human δ-globin, and human γ-
globin, or biologically active variants or fragments thereof. In one embodiment, the
globin gene is selected from the group consisting of a wild type human β-globin gene,
a deleted human β-globin gene comprising one or more deletions of intron sequences,
and a mutated human β-globin gene encoding at least one antisickling amino acid
residue.
In a particular embodiment, wherein the condition being treated is a
sickle cell hemoglobinopathy, the gene of interest can be an antisickling protein. As
used herein, “antisickling protein” refers to a polypeptide that prevents or reverses the
pathological events leading to sickling of erythrocytes in sickle cell conditions. In
one embodiment described herein, the transduced cells described herein are used to
deliver antisickling proteins to a subject with a hemoglobinopathic condition.
Antisickling proteins also include mutated β-globin genes comprising antisickling
amino acid residues.
In a preferred embodiment, one such globin variant is the human βA-
globin gene encoding a threonine to glutamine mutation at codon 87 ( βA-T87Q) or a
human βA-globin gene (the mature form of the globin polypeptide has been processed
by cleavage of the N-terminal methionine, codon 87 of the mature globin polypeptide
is threonine; codon 88 of the full-length, non-cleaved globin polypeptide is
threonine). Other antisickling amino acid residues are known in the art and may be
useful in the present invention. For example, see U.S. Patent 6,051,402; U.S. Patent
,861,488; U.S. Patent 6,670,323; U.S. Patent 5,864,029; U.S. Patent 5,877,288; and
Levasseur et al., Blood 102:4312-4319 (2003), which are herein incorporated by
reference.
In certain embodiments, a vector that comprising an erythroid specific
expression control sequence is used to treat, prevent, or ameliorate of a vast number
of disorders extending well beyond the hemoglobinopathies. Red blood cell
precursors are a useful cell population in which to express polypeptides that can be
secreted into the circulation and thus delivered systemically. An example of such in
vivo protein delivery is human Factor IX, a clotting factor that is missing in patients
with Hemophilia B, see, e.g., A. H. Chang, et al., Molecular Therapy (2008), which is
herein incorporated by reference.
In one embodiment, cells transduced with vectors described herein can
be used as “factories” for protein secretion, in vitro, ex vivo, or in vivo. For example,
a vector comprising an erythroid cell specific expression control sequence can be used
for large-scale in vitro production of proteins from erythroid cells differentiated from
HSCs or from embryonic stem cells.
Polynucleotides-of-interest that could be expressed in this way include,
but are not limited to: adenosine deaminase, the enzymes affected in lysosomal
storage diseases, apolipoprotein E, brain derived neurotropihic factor (BDNF), bone
morphogenetic protein 2 (BMP-2), bone morphogenetic protein 6 (BMP-6), bone
morphogenetic protein 7 (BMP-7), cardiotrophin 1 (CT-1), CD22, CD40, ciliary
neurotrophic factor (CNTF), CCL1-CCL28, CXCL1-CXCL17, CXCL1, CXCL2,
CX3CL1, vascular endothelial cell growth factor (VEGF), dopamine, erythropoietin,
Factor IX, Factor VIII, epidermal growth factor (EGF), estrogen, FAS-ligand,
fibroblast growth factor 1 (FGF-1), fibroblast growth factor 2 (FGF-2), fibroblast
growth factor 4 (FGF-4), fibroblast growth factor 5 (FGF-5), fibroblast growth factor
6 (FGF-6), fibroblast growth factor 1 (FGF-7), fibroblast growth factor 1 (FGF-10),
Flt-3, granulocyte colony-stimulating factor (G-CSF), granulocyte macrophage
stimulating factor (GM-CSF), growth hormone, hepatocyte growth factor (HGF),
interferon alpha (IFN-a), interferon beta (IFN-b), interferon gamma (IFNg), insulin,
glucagon, insulin-like growth factor 1(IGF-1), insulin-like growth factor 2 (IGF-2),
interleukin 1 (IL-1), interleukin 2 (IL-2), interleukin 3 (IL-3), interleukin 4 (IL-4),
interleukin 5 (IL-5), interleukin 6 (IL-6), interleukin 7 (IL-7), interleukin 8 (IL-8),
interleukin 9 (IL-9), interleukin 10 (IL-10), interleukin 11 (IL-11), interleukin 12 (IL-
12), interleukin 13 (IL-13), interleukin 15 (IL-15), interleukin 17 (IL-17), interleukin
19 (IL-19), macrophage colony-stimulating factor (M-CSF), monocyte chemotactic
protein 1 (MCP-1), macrophage inflammatory protein 3a (MIP-3a), macrophage
inflammatory protein 3b (MIP-3b), nerve growth factor (NGF), neurotrophin 3 (NT-
3), neurotrophin 4 (NT-4), parathyroid hormone, platelet derived growth factor AA
(PDGF-AA), platelet derived growth factor AB (PDGF-AB), platelet derived growth
factor BB (PDGF-BB), platelet derived growth factor CC (PDGF-CC), platelet
derived growth factor DD (PDGF-DD), RANTES, stem cell factor (SCF), stromal cell
derived factor 1 (SDF-1), testosterone, transforming growth factor alpha (TGF-a),
transforming growth factor beta (TGF-b), tumor necrosis factor alpha (TNF-a), Wnt1,
Wnt2, Wnt2b/13, Wnt3, Wnt3a, Wnt4, Wnt5a, Wnt5b, Wnt6, Wnt7a, Wnt7b, Wnt7c,
Wnt8, Wnt8a, Wnt8b, Wnt8c, Wnt10a, Wnt10b, Wnt11, Wnt14, Wnt15, or Wnt16,
Sonic hedgehog, Desert hedgehog, and Indian hedgehog.
In one embodiment, a vector described herein comprises at least one
modified or unmodified retroviral LTR, e.g., lentiviral LTR, a β-globin promoter and
a β-globin locus control region (LCR) operably linked to a polynucleotide of interest,
e.g., encoding a globin polypeptide. Suitable modifications of the LTRs include, but
are not limited to: replacement of the 5' LTR is with a heterologous promoter, e.g.,
cytomegalovirus (CMV) promoter, a Rous Sarcoma Virus (RSV) promoter, a
thymidine kinase promoter, or an Simian Virus 40 (SV40) promoter; and one or more
modifications, additions, and/or deletions of a 3' LTR as discussed elsewhere herein.
In a particular embodiment, erythroid specific expression of a
polynucleotide is achieved using a human β-globin promoter, a β-globin LCR that
comprises one or more of DNAase I hypersensitive sites 2, 3 and 4 from the human β-
globin LCR, and/or a human β-globin 3' enhancer element.
In various embodiments, a vector described herein comprises one or
more elements selected from the group consisting of: a Psi packaging sequence ( Ψ ),
a central polypurine tract/DNA flap (cPPT/FLAP), a retroviral export element, a
posttranscriptional regulatory element, one or more insulator elements, a
polyadenylation sequence, a selectable marker, and a cell suicide gene, as discussed
elsewhere herein.
In various embodiments, the vectors described herein comprise a
promoter operably in hematopoietic cell operably linked to a gene encoding a
polypeptide that provides therapy for hemoglobinopathies. The vectors may have one
or more LTRs, wherein either LTR comprises one or more modifications, such as one
or more nucleotide substitutions, additions, or deletions. The vectors may further
comprise one of more accessory elements to increase transduction efficiency (e.g., a
cPPT/FLAP), viral packaging (e.g., a Psi ( Ψ) packaging signal, RRE), and/or other
elements that increase therapeutic gene expression (e.g., poly (A) sequences).
In one embodiment, a vector comprises a left (5') retroviral LTR, a Psi
packaging sequence ( Ψ ), central polypurine tract/DNA flap (cPPT/FLAP), a
retroviral export element, a β-globin promoter, a β-globin locus control region (LCR),
and optionally a 3' β-globin enhancer operably linked to a polynucleotide of interest,
and a right (3') retroviral LTR that comprises one or more insulator elements, or a
polyadenylation sequence.
In particular embodiment, a vector described herein is a lentiviral
vector that comprises a left (5') HIV-1 LTR, a Psi packaging sequence ( Ψ ), an HIV-1
central polypurine tract/DNA flap (cPPT/FLAP), a rev response element (RRE), a β-
globin promoter, a β-globin locus control region (LCR), and optionally a 3' β-globin
enhancer operably linked to a polynucleotide of interest, and a right (3') retroviral
LTR that comprises one or more insulator elements, and a rabbit β-globin polyA
sequence (r βgpA).
In various embodiments, the vectors described herein comprise a
promoter operably in a microglial cell operably linked to a gene encoding a
polypeptide that provides therapy for adrenoleukodystrophies and/or
adrenomyeloneuropathies. The vectors may have one or more LTRs, wherein either
LTR comprises one or more modifications, such as one or more nucleotide
substitutions, additions, or deletions. The vectors may further comprise one of more
accessory elements to increase transduction efficiency (e.g., a cPPT/FLAP), viral
packaging (e.g., a Psi ( Ψ) packaging signal, RRE), and/or other elements that increase
therapeutic gene expression (e.g., poly (A) sequences).
In a particular embodiment, the transfer vector described herein
comprises a left (5') retroviral LTR; a central polypurine tract/DNA flap
(cPPT/FLAP); a retroviral export element; a promoter active in a microglial cell,
operably linked to a polynucleotide encoding an ATP-binding cassette, sub-family D,
member 1 (ABCD1) polypeptide; and a right (3') retroviral LTR.
In a certain embodiment, described is a lentiviral vector comprising: a
left (5') HIV-1 LTR; a Psi ( Ψ) packaging signal; a cPPT/FLAP; an RRE; a MND
promoter, operably linked to a polynucleotide encoding a human ABCD1
polypeptide; a right (3') self-inactivating (SIN) HIV-1 LTR; and a rabbit β-globin
polyadenylation sequence.
The skilled artisan would appreciate that many other different
embodiments can be fashioned from the existing embodiments of the disclosure, such
that the therapeutic transgene or gene of interest is expressed in a target cell type or
cell lineage other than the hematopoietic lineage, e.g., the neuronal lineage.
D. Methods of Transduction
Also described are methods and compositions that significantly
increase the transduction efficiency of target cells. Without wishing to be bound to
any particular theory, it is contemplated that the compositions and methods of the
present invention may be used to transduce significantly more cells with significantly
less virus, thereby minimizing the risk of genomic alteration and/or insertional
activation of proto-oncogenes in the genome of the therapeutic cell. Minimizing the
risk of insertional activation of proto-oncogenes and other genomic alterations in the
therapeutic cell is an important consideration in devising a suitable gene therapy
protocol because it minimizes the chance that transduced cells comprising cancer like
characteristics will be clonally expanded in vivo and give rise to cancers, tumors or
other diseases involving abnormal cell proliferation. Moreover, the art has noted that
transduction with large amounts of virus may be generally cytotoxic to the transduced
cell. Thus, the compositions and methods described herein further enhance the
survivability of transduced cells. Accordingly, described is a safer and more efficient
gene therapy.
The delivery of a gene(s) or other polynucleotide sequences using a
retroviral or lentiviral vector by means of viral infection rather than by transfection is
referred to as “transduction.” In one embodiment, retroviral vectors are transduced
into a cell through infection and provirus integration. In certain embodiments, a cell,
e.g., a target cell, is “transduced” if it comprises a gene or other polynucleotide
sequence delivered to the cell by infection using a viral or retroviral vector. In
particular embodiments, a transduced cell comprises one or more genes or other
polynucleotide sequences delivered by a retroviral or lentiviral vector in its cellular
genome.
In particular embodiments, host cells or target cells transduced with a
viral vector described herein express a therapeutic polypeptide and are administered
to a subject to treat and/or prevent a disease, disorder, or condition.
The production of infectious viral particles and viral stock solutions
may be carried out using conventional techniques. Methods of preparing viral stock
solutions are known in the art and are illustrated by, e.g., Y. Soneoka et al. (1995)
Nucl. Acids Res. 23:628-633, and N. R. Landau et al. (1992) J. Virol. 66:5110-5113.
In particular embodiments, HIV type 1 (HIV-1) based viral particles
may be generated by co-expressing the virion packaging elements and the transfer
vector in a producer cell. These cells may be transiently transfected with a number of
plasmids. Typically from three to four plasmids are employed, but the number may
be greater depending upon the degree to which the lentiviral components are broken
up into separate units. For example, one plasmid may encode the core and enzymatic
components of the virion, derived from HIV-1. This plasmid is termed the packaging
plasmid. Another plasmid typically encodes the envelope protein(s), most commonly
the G protein of vesicular stomatitis virus (VSV G) because of its high stability and
broad tropism. This plasmid may be termed the envelope expression plasmid. Yet
another plasmid encodes the genome to be transferred to the target cell, that is, the
vector itself, and is called the transfer vector. The packaging plasmids can be
introduced into human cell lines by known techniques, including calcium phosphate
transfection, lipofection or electroporation. Recombinant viruses with titers of several
millions of transducing units per milliliter (TU/ml) can be generated by this technique
and variants thereof. After ultracentrifugation concentrated stocks of about 10
9 10 11 12 13
TU/ml, 10 TU/ml, 10 TU/ml, 10 TU/ml, 10 TU/ml, or about 10 TU/ml can be
obtained.
Infectious virus particles may be collected from the packaging cells
using conventional techniques. For example, the infectious particles can be collected
by cell lysis, or collection of the supernatant of the cell culture, as is known in the art.
Optionally, the collected virus particles may be purified if desired. Suitable
purification techniques are well known to those skilled in the art.
Viruses may be used to infect cells in vivo, ex vivo, or in vitro using
techniques well known in the art. For example, when cells, for instance CD34 cells,
dendritic cells, peripheral blood cells or stem cells are transduced ex vivo, the vector
particles may be incubated with the cells using a dose generally in the order of
between 1 to 50 multiplicities of infection (MOI) which also corresponds to 1x10 to
50x10 transducing units of the viral vector per 10 cells. This, of course, includes
amount of vector corresponding to 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 15, 20, 25, 30, 35, 40,
45, and 50 MOI.
Viruses may also be delivered to a subject in vivo, by direct injection to
the cell, tissue, or organ in need of therapy. Direct injection requires on the order of
between 1 to 50 multiplicities of infection (MOI) which also corresponds to 1x10 to
50x10 transducing units of the viral vector per 10 cells.
Viruses may also be delivered according to viral titer (TU/mL), which
can be measured, for example, by using a commercially available p24 titer assay,
which is an ELISA against the p24 viral coat protein. The following formula can be
used to calculate the pg/mL of p24: there are approximately 2000 molecules of p24
per physical particle (PP) of lentivirus: (2 x 103) x (24 x 103 Da of p24 per PP), 48 x
106/Avogadro = (48 x 106) / (6 x 1023) = 8 x 10-17 g of p24 per PP, approximately 1
PP per 1 x 10-16 g of p24, 1 x 104 PP per pg of p24. A reasonably well packaged,
VSV-G pseudotyped lentiviral vector will have an infectivity index in the range of 1
TU per 1000 physical particles (PP) to 1 TU per 100 PP (or less). Thus, the range is
approximately 10 to 100 TU/pg of p24. It is through this conversion that TU/mL is
obtained.
Based on previous experience, the amount of lentivirus directly
injected is determined by total TU and can vary based on both the volume that could
be feasibly injected to the site and the type of tissue to be injected. For example, a
brain injection site may only allow for a very small volume of virus to be injected, so
6 7 6
a high titer prep would be preferred, a TU of about 1 x 10 to 1 x 10 , about 1 x 10 to
8 6 9 7 10 8 11 8
1 x 10 , 1 x 10 to 1 x 10 , about 1 x 10 to 1 x 10 , 1 x 10 to 1 x 10 , about 1 x 10
12 10 12
to 1 x 10 , or about 1 x 10 to 1 x 10 or more per injection could be used.
However, a systemic delivery could accommodate a much larger TU, a load of 1 x
8 9 10 11 12 13 14 15
, 1 x 10 , 1 x 10 , 1 x 10 , 1 x 10 , 1 x 10 , 1 x 10 , or 1 x 10 , could be
delivered.
Also described are compositions and methods that provide high
efficiency transduction of cells in vitro, ex vivo, and in vivo, using lower viral titers
than those disclosed above to achieve comparable transduction efficiencies in the
absence of the compositions and methods described herein.
Certain aspects described herein arise from the unexpected finding that
transduction efficiency is significantly increased by contacting cells, in vitro, ex vivo,
or in vivo, with a retrovirus and one or more compounds that stimulate the
prostaglandin EP receptor signaling pathway, such as, for example, a small molecule,
or those compounds disclosed in and WO2010/108028, each of
which is herein incorporated by reference in its entirety. As used herein, the terms
“stimulate the prostaglandin EP receptor signaling,” “activate the prostaglandin EP
receptor signaling,” or “increase the prostaglandin EP receptor signaling” generally
refers to the ability of a compound to increase the cell signaling activity downstream
of a prostaglandin EP receptor in the cell contacted with the one or more compounds
compared to the cell signaling activity downstream of the prostaglandin EP receptor
in the absence of the one or more compounds. Assays that can be used to measure
activation or stimulation of the prostaglandin EP receptor signaling pathway are
known in the art, and are described in, for example, WO2010/108028, which is herein
incorporated by reference in its entirety.
Illustrative examples of compounds that stimulate the prostaglandin EP
receptor signaling pathway include, but are not limited to, small molecules, e.g., small
organic molecules, prostaglandins, Wnt pathway agonists, cAMP/PI3K/AKT pathway
agonists, Ca2 second messenger pathway agonists, nitric oxide (NO)/angiotensin
signaling agonists, and other compounds known to stimulate the prostaglandin
signaling pathway selected from the group consisting of: Mebeverine,
Flurandrenolide, Atenolol, Pindolol, Gaboxadol, Kynurenic Acid, Hydralazine,
Thiabendazole, Bicuclline, Vesamicol, Peruvoside, Imipramine, Chlorpropamide, 1,5-
Pentamethylenetetrazole, 4- Aminopyridine, Diazoxide, Benfotiamine, 12-
Methoxydodecenoic acid, N-Formyl-Met-Leu- Phe, Gallamine, IAA 94,
Chlorotrianisene, and derivatives of these compounds.
In a preferred embodiment, the compound that stimulates the
prostaglandin pathway is a naturally-occurring or synthetic chemical molecule or
polypeptide that binds to and/or interacts with an EP receptor, typically to activate or
increase one or more of the downstream signaling pathways associated with a
prostaglandin EP receptor, as described herein and known in the art.
In one embodiment, the compound that stimulates the prostaglandin
pathway is selected from the groups consisting of: PGA ; PGB ; PGD ; PGE
2 2 2 1
TM TM TM TM
(Alprostadil (Caverject ; Edex ; Muse ; Prostin VR ); PGE ; PGF ; PGI
2 2 2
TM TM
(Epoprostenol (Flolan ; Prostacyclin )); PGH ; PGJ ; and precursors, metabolites,
derivatives and analogues thereof.
Additional illustrative compounds that stimulate thr prostaglandin
pathway include, but are not limited to 15d-PGJ ; delta12-PGJ ; 2-
hydroxyheptadecatrienoic acid (HHT); Thromboxane (TXA2 and TXB2); PGI
TM TM
analogs, e.g., Iloprost (Ventavis ) and Treprostinil (Remodulin ); PGF analogs,
TM TM
e.g., Travoprost (Travatan ), Carboprost tromethamine (Hemabate ), Tafluprost
TM TM TM TM
(ZioptanI ), Latanoprost (Xalatan ), Bimatoprost (Lumigan ; Latisse ),
Unoprostone isopropyl (Rescula ), Cloprostenol (Ciosin™, Cyclix™, Estrumate™,
Lutaprost™, Onsett™, Planate™), Oestrophan, and Superphan; PGE analogs, e.g.,
Misoprostol (Cytotec ) and Butaprost; and Corey alcohol-A [[3a α,4 α,5 β,6a α]-(-)-
[Hexahydro(hydroxymetyl)oxo-2H-cyclopenta/b/furanyl][1,1 ′-bifenyl]
carboxylate]; Corey alcohol-B [2H-Cyclopenta[b]furanon,5-
(benzoyloxy)hexahydro(hydroxymethyl)[3aR-(3a α,4 α,5 β,6a α)]]; and Corey diol
((3aR,4S,5R,6aS)-hexahydrohydroxy(hydroxymethyl)-2H-cyclopenta[b]furan-
2-one).
In one embodiment, the compound is a prostaglandin EP receptor
ligand including, but not limited to, prostaglandin E2(PGE ), as well as “analogs” or
“derivatives” thereof. Prostaglandins relate generally to hormone like molecules that
are derived from fatty acids containing 20 carbon atoms, including a 5-carbon ring, as
described herein and known in the art.
Illustrative examples of PGE “analogs” or “derivatives” include, but
are not limited to, 16,16-dimethyl PGE , 16-16 dimethyl PGE p-(p-
acetamidobenzamido) phenyl ester, 11-deoxy-16,16-dimethyl PGE , 9-deoxy
methylene-16, 16-dimethyl PGE , 9-deoxymethylene PGE , 9-keto Fluprostenol,
-trans PGE , 17-phenyl-omega-trinor PGE , PGE serinol amide, PGE methyl ester,
2 2 2 2
16-phenyl tetranor PGE , 15(S)- 15- methyl PGE , 15 (R)methyl PGE , 8-iso-
2 2 2
-keto PGE , 8-iso PGE isopropyl ester, 20-hydroxy PGE , 11-deoxy PGEi,
2 2 2
nocloprost, sulprostone, butaprost, 15-keto PGE , and 19 (R) hydroxyy PGE .
Also included are prostaglandin analogs or derivatives having a similar
structure to PGE that are substituted with halogen at the 9-position (see, e.g., WO
2001/12596, herein incorporated by reference in its entirety), as well as 2- decarboxy-
2-phosphinico prostaglandin derivatives, such as those described in U.S. Publication
No. 2006/0247214, herein incorporated by reference in its entirety).
In some embodiments, the compound is a non-PGE -based ligand. In
certain embodiments, the non-PGE -based ligand is selected from the group
consisting of an EP1 agonist, an EP2 agonist, an EP3 agonist, and an EP4 agonist.
In particular embodiments, the prostaglandin EP receptor is selected
from EP1, EP2, EP3, and EP4.
Illustrative examples of non-PGE -based EP1 agonists include, but are
not limited to, ONO-DI-004 and ONO-8713. Illustrative examples of non-PGE2-
based EP2 agonist include, but are not limited to, CAY10399, ONO_8815Ly, ONO-
AE1-259, and CP-533,536. Additional examples of non-PGE -based EP2 agonists
include the carbazoles and fluorenes disclosed in , herein
incorporated by reference for its disclosure of such agents. Illustrative examples of
non-PGE -based EP3 agonist include, but are not limited to, AE5-599, MB28767, GR
63799X, ONO-NT012, and ONO-AE-248. Illustrative examples of non- PGE -based
EP4 agonist include, but are not limited to, ONO-4819, APS-999 Na, AH23848, and
ONO-AE 1-329. Additional examples of non-PGE -based EP4 agonists can be found
in WO/2000/038663; U.S. Patent No. 6,747,037; and U.S. Patent No. 6,610,719, each
of which are incorporated by reference for their disclosure of such agonists.
In one embodiment, the compound that stimulates the prostaglandin EP
receptor signaling pathway is a Wnt agonist. Illustrative examples of Wnt agonists
include, but are not limited to Wnt polypeptides and glycogen synthase kinase 3
(GSK3) inhibitors. Illustrative examples of wnt polypeptides suitable for use as
compounds that stimulate the prostaglandin EP receptor signaling pathway include,
but are not limited to, Wnt1, Wnt2, Wnt2b/13, Wnt3, Wnt3a, Wnt4, Wnt5a, Wnt5b,
Wnt6, Wnt7a, Wnt7b, Wnt7c, Wnt8, Wnt8a, Wnt8b, Wnt8c, Wnt10a, Wnt10b,
Wnt11, Wnt14, Wnt15, or Wnt15and biologically active fragments thereof.
GSK3 inhibitors suitable for use as compounds that stimulate the
prostaglandin EP receptor signaling pathway bind to and decrease the activity of
GSK3 α, or GSK3β. Illustrative examples of GSK3 inhibitors include, but are not
limited to, BIO (6-bromoindirubin-3´-oxime), LiCl or other GSK-3 inhibitors, as
exemplified in U.S. patents 6,057,117 and 6,608,063; and U.S. applications
2004/0092535 and 2004/0209878; ATP- competitive, selective GSK-3 inhibitors
CHIR-911 and CHlR-837 (also referred to as CT-99021 and CT-98023 respectively).
Chiron Corporation (Emeryville, CA).
In another embodiment, the compound that stimulates the
prostaglandin EP receptor signaling pathway increases signaling through the
cAMP/P13K/AKT second messenger pathway and is selected from the group
consisting of dibutyryl cAMP (DBcAMP), phorbol ester, forskolin, sclareline, 8-
bromo-cAMP, cholera toxin (CTx), aminophylline, 2,4 dinitrophenol (DNP),
norepinephrine, epinephrine, isoproterenol, isobutylmethylxanthine (IBMX), caffeine,
theophylline (dimethylxanthine), dopamine, rolipram, iloprost, pituitary adenylate
cyclase activating polypeptide (PACAP), and vasoactive intestinal polypeptide (VIP,
and derivatives of these agents.
In yet another embodiment, the compound that stimulates the
prostaglandin EP receptor signaling pathway increases signaling through the Ca2+
second messenger pathway and is selected from the group consisting of Bapta-AM,
Fendiline, Nicardipine and derivatives of these compounds.
In another embodiment, the compound that stimulates the
prostaglandin EP receptor signaling pathway increases signaling through the NO/
Angiotensin signaling pathway and is selected from the group consisting of L-Arg,
Sodium Nitroprusside, Sodium Vanadate, Bradykinin, and derivatives thereof.
In one embodiment, described is a method of improving the efficiency
of transduction comprising culturing a population of cells with a retrovirus and one or
more compounds that increases the prostaglandin EP receptor signaling selected from
the group consisting of: a prostaglandin, PGE2; PGD2; PGI2; Linoleic Acid; 13(s)-
HODE; LY171883; Mead Acid; Eicosatrienoic Acid; Epoxyeicosatrienoic Acid;
ONO-259; Cay1039; a PGE2 receptor agonist; 16,16-dimethyl PGE2; 19(R)-hydroxy
PGE2; 16,16-dimethyl PGE2 p-(p-acetamidobenzamido) phenyl ester; 11-deoxy-
16,16-dimethyl PGE2; 9-deoxymethylene-16,16-dimethyl PGE2; 9-deoxy
methylene PGE2; Butaprost; Sulprostone; PGE2 serinol amide; PGE2 methyl ester;
16-phenyl tetranor PGE2; 15(S)methyl PGE2; 15(R)methyl PGE2; BIO; 8-
bromo-cAMP; Forskolin; Bapta-AM; Fendiline; Nicardipine; Nifedipine; Pimozide;
Strophanthidin; Lanatoside; L-Arg; Sodium Nitroprusside; Sodium Vanadate;
Bradykinin; Mebeverine; Flurandrenolide; Atenolol; Pindolol; Gaboxadol; Kynurenic
Acid; Hydralazine; Thiabendazole; Bicuclline; Vesamicol; Peruvoside; Imipramine;
Chlorpropamide; 1,5-Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide;
Benfotiamine; 12-Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA
94; and Chlorotrianisene.
In a particular embodiment, described is a method of improving the
efficiency of transduction comprising culturing a population of cells with a retrovirus
and one or more compounds that are ligands of a prostaglandin EP receptor selected
from the group consisting of: 16,16-dimethyl PGE2, 16-16 dimethyl PGE2 p-(p-
acetamidobenzamido) phenyl ester, 11-deoxy-16,16-dimethyl PGE2, 9-deoxy
methylene-16, 16-dimethyl PGE2, 9-deoxymethylene PGE2, 9-keto Fluprostenol,
-trans PGE2, 17-phenyl-omega-trinor PGE2, PGE2 serinol amide, PGE2 methyl
ester, 16-phenyl tetranor PGE2, 15(S)- 15- methyl PGE2, 15 (R)methyl PGE2,
8-isoketo PGE2, 8-iso PGE2 isopropyl ester, 20-hydroxy PGE2, 11-deoxy PGEi,
nocloprost, sulprostone, butaprost, 15-keto PGE2, and 19 (R) hydroxyy PGE2.
The present disclosure also contemplates that the transduction
efficiency of cells can be increased by culturing cells in the presence of a retrovirus, a
compound that stimulates a prostaglandin EP receptor pathway, e.g., PGE2, and one
or more histone deacetylase (HDAC) inhibitors.
Illustrative examples of HDAC inhibitors suitable for use in the
compositions and methods described herein include, but are not limited to: HDAC
inhibitors include, but are not limited to, TSA (trichostatin A) (see, e.g., Adcock,
(2007) British Journal of Pharmacology 150:829-831), VPA (valproic acid) (see, e.g.,
Munster, et al, (2007) Journal of Clinical Oncology 25: 18S: 1065), sodium butyrate
(NaBu) (see, e.g., Han, et al., (2007) Immunology Letters 108: 143-150), SAHA
(suberoylanilide hydroxamic acid or vorinostat) (see, e.g., Kelly, et al., (2005) Nature
Clinical Practice Oncology 2: 150-157), sodium phenylbutyrate (see, e.g., Gore, et
al., (2006) Cancer Research 66:6361 -6369), depsipeptide (FR901228, FK228) (see,
e.g., Zhu, et al., (2003) Current Medicinal Chemistry 3(3): 187-199), trapoxin (TPX)
(see, e.g., Furumai, et al., (2001) PNAS 98(1): 87- 92), cyclic hydroxamic acid-
containing peptide 1 (CHAP1) (see, Furumai supra), MS- 275 (see, e.g., Carninci, et
al., WO2008/126932, incorporated herein by reference)), LBH589 (see, e.g., Goh, et
al., WO2008/108741 incorporated herein by reference) and PXD-101 (see, Goh,
supra).
The present disclosure contemplates that cells may be cultured in the
presence of a retrovirus may be exposed to (contacted with) a compound that
stimulates the prostaglandin EP receptor signaling pathway and/or an HDAC inhibitor
for a duration of about 10 minutes to about 72 hours, about 30 minutes to about 72
hours, about 30 minutes to about 48 hours, about 30 minutes to about 24 hours, about
minutes to about 12 hours, about 30 minutes to about 8 hours, about 30 minutes to
about 6 hours, about 30 minutes to about 4 hours, about 30 minutes to about 2 hours,
about 1 hour to about 2 hours, or any intervening period of time.
In one embodiment, the cells cultured with a retrovirus are exposed to
(contacted with) a compound that stimulates the prostaglandin EP receptor signaling
pathway and/or an HDAC inhibitor for about 30 minutes, about 1 hour, about 2 hours,
about 4 hours, about 5 hours, about 6 hours, about 7 hours, about 8 hours, about 9
hours, about 10 hours, about 11 hours, about 12 hours, about 13 hours, about 14
hours, about 15 hours, about 16 hours, about 17 hours, about 18 hours, about 19
hours, about 20 hours, about 21 hours, about 22 hours, about 23 hours, about 24
hours, about 48 hours, or about 72 hours, or any intervening duration of time.
The present disclosure contemplates that the cells may be cultured with
one or more compounds that stimulate the prostaglandin EP receptor signaling
pathway and/or one or more HDAC inhibitors prior to culture with a retrovirus,
during culture with a retrovirus, or after culture with a retrovirus, or any combination
thereof for any of the foregoing periods of time disclosed herein.
The present disclosure further contemplates that cells may be cultured
with one or more compounds that stimulate the prostaglandin EP receptor signaling
pathway and a retrovirus prior to culture with one or more HDAC inhibitors, during
culture with one or more HDAC inhibitors, or after culture with one or more HDAC
inhibitors, or any combination thereof for any of the foregoing periods of time
disclosed herein.
The present disclosure also contemplates that cells may be cultured
with a retrovirus prior to culture with one or more compounds that stimulate the
prostaglandin EP receptor signaling pathway and/or one or more HDAC inhibitors,
during culture with one or more compounds that stimulate the prostaglandin EP
receptor signaling pathway and/or one or more HDAC inhibitors, or after culture one
or more compounds that stimulate the prostaglandin EP receptor signaling pathway
and/or one or more HDAC inhibitors, or any combination thereof for any of the
foregoing periods of time disclosed herein.
Furthermore, one having ordinary skill in the art would appreciate that
the methods described herein for increasing transducing include culturing cells with
retrovirus, one or more compounds that stimulate the prostaglandin EP receptor
signaling pathway and/or one or more HDAC inhibitors, during the first 6 hours of
transduction, the first 12 hours of transduction, the first 24 hours of transduction, the
first 48 hours of transduction, or the first 72 hours of the transduction, or any
intervening duration of transduction.
In addition, the present disclosure contemplates that cells may be
transduced 1, 2, 3 or more times in the presence of a retrovirus and one or more
compounds that stimulate the prostaglandin EP receptor signaling pathway and/or one
or more HDAC inhibitors. In another embodiment, the present disclosure
contemplates that cells may be transduced 1, 2, 3 or more times in the presence of a
retrovirus and exposed to (contacted with) one or more compounds that stimulate the
prostaglandin EP receptor signaling pathway and/or one or more HDAC inhibitors
only once or twice
In a particular embodiment, the disclosure contemplates that cells can
be cultured in the retrovirus, one or more compounds that stimulate the prostaglandin
EP receptor signaling pathway and/or one or more HDAC inhibitors, wherein the cells
are exposed to or contacted with the foregoing for the same or different lengths of
time, as disclosed elsewhere herein.
The present disclosure also contemplates that the compositions and
methods of the invention can increase the transduction of virtually any cell type to at
least about 30%, at least about 40%, at least about 50%, at least about 60%, at least
about 65%, at least about 70%, at least about 75%, at least about 80%, at least about
85%, at least about 90%, at least about 91%, at least about 92%, at least about 93%, at
least about 94%, at least about 95%, at least about 96%, at least about 97%, at least
about 98%, at least about 99%, or at least about 100%.
In particular embodiments, increase in transduction efficiency
represents at least 2-fold, at least 5-fold, at least 10-fold, at least 25-fold, at least 50-
fold, or at least 100-fold, or more fold enrichment of transduced cells compared to
cells transduced with vector alone.
Prior to, during, and/or following transduction, the cells may be
cultured in media suitable for the maintenance, growth, or proliferation of the cells.
Suitable culture media and conditions are well known in the art. Such media include,
but are not limited to, Dulbecco's Modified Eagle's Medium® (DMEM), DMEM F12
medium®, Eagle's Minimum Essential Medium®, F-12K medium®, Iscove's
Modified Dulbecco's Medium®, RPMI- 1640 medium®, and serum-free medium for
culture and expansion of hematopoietic cells SFEM®. Many media are also available
as low- glucose formulations, with or without sodium pyruvate.
Additional supplements also can be used advantageously to supply the
cells with the necessary trace elements for optimal growth and expansion. Such
supplements include insulin, transferrin, sodium selenium and combinations thereof.
These components can be included in a salt solution such as, but not limited to,
Hanks' Balanced Salt Solution® (HBSS), Earle's Salt Solution®, antioxidant
supplements, MCDB-201® supplements, phosphate buffered saline (PBS), ascorbic
acid and ascorbic acid-2 -phosphate, as well as additional amino acids. Many cell
culture media already contain amino acids, however, some require supplementation
prior to culturing cells. Such amino acids include, but are not limited to, L-alanine, L-
arginine, L-aspartic acid, L-asparagine, L-cysteine, L-cystine, L-glutamic acid, L-
glutamine, L-glycine, L- histidine, L-isoleucine, L-leucine, L-lysine, L-methionine, L-
phenylalanine, L-proline, L-serine, L-threonine, L-tryptophan, L-tyrosine, and L-
valine. It is well within the skill of one in the art to determine the proper
concentrations of these supplements.
Hormones also can be advantageously used in the cell cultures of the
present invention and include, but are not limited to, D-aldosterone, diethylstilbestrol
(DES), dexamethasone, β-estradiol, hydrocortisone, insulin, prolactin, progesterone,
somatostatin/human growth hormone (HGH), thyrotropin, thyroxine and L-thyronine.
Lipids and lipid carriers also can be used to supplement cell culture
media, depending on the type of cell and the fate of the differentiated cell. Such lipids
and carriers can include, but are not limited to, cyclodextrin ( α, β, γ), cholesterol,
linoleic acid conjugated to albumin, linoleic acid and oleic acid conjugated to
albumin, unconjugated linoleic acid, linoleic-oleic-arachidonic acid conjugated to
albumin and oleic acid unconjugated and conjugated to albumin, among others.
Cells may also be cultured in low-serum or serum-free culture
medium. Serum-free medium used to culture cells is described in, for example, U.S.
Patent 7,015,037. Many cells have been grown in serum-free or low-serum medium.
Following transduction, the transduced cells may be cultured under
conditions suitable for their maintenance, growth or proliferation. In particular
embodiments, the transduced cells are cultured for about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,
11, 12, 13 or 14 days before transplantation.
Prior to, during and/or following transduction, the cells may be
cultured under conditions that promote the expansion of stem cells or progenitor cells.
Any method known in the art may be used. In certain embodiments, prior to, during
or following transduction, the cells are cultured in the presence of one or more growth
factors that promote the expansion of stem cells or progenitor cells. Examples of
growth factors that promote the expansion of stem cells or progenitor cells include,
but are not limited to, fetal liver tyrosine kinase (Flt3) ligand, stem cell factor, and
interleukins 6 and 11, which have been demonstrated to promote self-renewal of
murine hematopoietic stem cells. Others include Sonic hedgehog,, which induces the
proliferation of primitive hematopoietic progenitors by activation of bone
morphogenetic protein 4, Wnt3a, which stimulates self-renewal of HSCs, brain
derived neurotrophic factor (BDNF), epidermal growth factor (EGF), fibroblast
growth factor (FGF), ciliary neurotrophic factor (CNF), transforming growth factor- β
(TGF- β), a fibroblast growth factor (FGF, e.g., basic FGF, acidic FGF, FGF-17, FGF-
4, FGF-5, FGF-6, FGF-8b, FGF-8c, FGF-9), granulocyte colony stimulating factor
(GCSF), a platelet derived growth factor (PDGF, e.g., PDGFAA, PDGFAB,
PDGFBB), granulocyte macrophage colony stimulating factor (GMCSF), stem cell
factor (SCF), stromal cell derived factor (SCDF), insulin like growth factor (IGF),
thrombopoietin (TPO) or interleukin-3 (IL-3). In particular embodiments, before,
during or following transduction, the cells are cultured in the presence of one or more
growth factors that promote expansion of stem cells or progenitor cells.
While the description and examples provided herein focus on the
transduction and selection of multipotent cells, including hematopoietic stem cells in
particular, the methods and compositions described herein may also be used to
transduce and select other cell types, including other types of pluripotent or
multipotent stem cells and fragile cells previously not amenable to selection of
transduced cells for therapeutic uses.
Cell used according to the methods described herein may be obtained
from any animal, preferably a mammal, e.g., a non-human primate or human, and
more preferably a human, and they may be transplanted into any animal, preferably a
mammal, and more preferably a human.
Cells suitable for transduction and administration in the gene therapy
methods described herein include, but are not limited to stem cells, progenitor cells,
and differentiated cells.
Illustrative examples of stem cells suitable for transduction with the
compositions and methods described herein include, but are not limited to embryonic
stem cells, induced pluripotent stem cells, mesodermal stem cells, endodermal stem
cells, and ectodermal stem cells.
In particular embodiments, the population or source of cells transduced
using the compositions and methods contemplated herein comprises mesenchymal
stem and/or progenitor cells, mesodermal stem and/or progenitor cells, endodermal
stem and/or progenitor cells, or ectodermal stem and/or progenitor cells. In certain
embodiments, the population or source of cells used in the methods contemplated
herein comprises bone marrow stem cells, umbilical cord blood stem and/or
progenitor cells, bone stem and/or progenitor cells¸ muscle stem and/or progenitor
cells, hematopoietic stem and/or progenitor cells, fat stem and/or progenitor cells,
cartilage stem and/or progenitor cells, neural stem and/or progenitor cells, skin stem
and/or progenitor cells, liver stem and/or progenitor cells, pancreas stem and/or
progenitor cells, kidney stem and/or progenitor cells, gastric stem and/or progenitor
cells, and intestinal stem and/or progenitor cells.
In certain embodiments the population or source of cells transduced
using the composition and methods described herein include, but are not limited to,
osteoblasts, chondrocytes, adipocytes, skeletal muscle, cardiac muscle, neurons, glial
cells (astrocytes, oligodendrocytes, Schwann cells), retinal cells (rod cells, cone cells),
corneal cells, skin cells, monocytes and macrophages, neutrophils, basophils,
eosinophils, erythrocytes, megakaryocytes/platelets, dendritic cells, T-cells, B-cells,
NK-cells, gastric cells, intestinal cells, smooth muscle cells, vascular cells, bladder
cells, pancreatic islet cells (pancreatic alpha cells, pancreatic beta cells, pancreatic
delta cells), hepatocytes, renal cells, adrenal cells, and lung cells.
In various embodiments, the use of stem cells is preferred because they
have the ability to differentiate into the appropriate cell types when administered to a
particular biological niche, in vivo.
In preferred embodiments, the compositions and methods described
herein are used to increase the transduction of hematopoietic stem or progenitor cells.
The present disclosure also contemplates isolation and transduction of
a population of cells. As used herein, the term “population of cells” refers to a
plurality of cells that may be made up of any number and/or combination of
homogenous or heterogeneous cell types, as described elsewhere herein. For
example, for transduction of hematopoietic stem or progenitor cells, a population of
cells may be isolated or obtained from umbilical cord blood, placental blood, bone
marrow, or peripheral blood. A population of cells may comprise about 10%, about
%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about
90%, or about 100% of the target cell type to be transduced. In certain embodiments,
hematopoietic stem or progenitor cells may be isolated or purified from a population
of heterogenous cells using methods known in the art. In particular embodiments,
hematopoietic stem or progenitor cells are purified after transduction of a population
of cells, and in other embodiments, hematopoietic stem or progenitor cells are isolated
prior to transduction.
Cells described herein may also be cryopreserved prior to transduction
or after transduction sing methods known in the art. Once established in culture, cells
can be used fresh or frozen and stored as frozen stocks, using, for example, DMEM
with 40% FCS and 10% DMSO. Other methods for preparing frozen stocks for
cultured cells also are available to those skilled in the art.
In particular embodiments, a population of cells comprising stem or
progenitor cells is contacted with a retrovirus, e.g., lentivirus, and one or more
compounds that increase prostaglandin signaling, e.g., a prostaglandin EP receptor
ligand such as PGE2 or an analog or derivative thereof. In certain embodiments, the
population of cells is further contacted with one or more HDAC inhibitors. In various
embodiments, the population of cells is contacted ex vivo, or in vivo.
In certain preferred embodiments, the stem or progenitor cells are
hematopoietic stem or progenitor cells.
E. Cell Culture Compositions
The present disclosure further contemplates cell-based compositions
comprising a culture of cells in culture medium comprising a retrovirus and one or
more compounds that increase prostaglandin signaling. As discussed herein
throughout, in particular embodiments, the present compositions and methods are
useful for ex vivo and in vivo cell-based gene therapies. In some embodiments, the
cell culture medium is a pharmaceutically acceptable cell culture medium.
A therapeutic culture, cell culture, culture system, or cell culture
compositions comprising a cell-based composition described herein can be
administered separately by enteral or parenteral administration methods or in
combination with other suitable compounds to effect the desired treatment goals, e.g.,
one or more growth factors.
In one illustrative embodiment, a therapeutic culture, cell culture,
culture system, or cell culture composition comprising a transduced cell described
herein is administered systemically by direct injection into a tissue.
F. Compositions and Formulations
The formulations and compositions described herein may comprise a
combination of any number of transduced or non-transduced cells or a combination
thereof, viral vectors, polypeptides, polynucleotides, and one or more compounds,
e.g., compounds that increase prostaglandin signaling and/or HDAC inhibitors, as
described herein, formulated in pharmaceutically-acceptable or physiologically-
acceptable solutions (e.g., culture medium) for administration to a cell, tissue, organ,
or an animal, either alone, or in combination with one or more other modalities of
therapy.
Particular ex vivo and in vitro formulations and compositions described
herein may comprise a combination of transduced or non-transduced cells or a
combination thereof, viral vectors, and one or more compounds, e.g., compounds that
increase prostaglandin signaling and/or HDAC inhibitors, as described herein,
formulated in pharmaceutically-acceptable or physiologically- acceptable solutions
(e.g., culture medium) for administration to a cell, tissue, organ, or an animal, either
alone, or in combination with one or more other modalities of therapy.
Particular in vivo formulations and compositions described herein may
comprise a combination of viral vectors, and one or more compounds, e.g.,
compounds that increase prostaglandin signaling and/or HDAC inhibitors, as
described herein, formulated in pharmaceutically-acceptable or physiologically-
acceptable solutions (e.g., culture medium) for administration and transduction of a
cell or tissue in an animal, either alone, or in combination with one or more other
modalities of therapy.
In certain embodiments, described are compositions comprising a
therapeutically- effective amount of transduced cells, as described herein, formulated
together with one or more pharmaceutically acceptable carriers (additives) and/or
diluents (e.g., pharmaceutically acceptable cell culture medium).
In certain other embodiments, described are compositions comprising a
retroviral vector and one or more compounds that increase prostaglandin EP receptor
signaling, as described herein, formulated together with one or more pharmaceutically
acceptable carriers (additives) and/or diluents (e.g., pharmaceutically acceptable cell
culture medium).
In particular embodiments, described are compositions comprising a
population of cells comprising stem or progenitor cells, a retroviral vector and one or
more compounds that increase prostaglandin EP receptor signaling, as described
herein, formulated together with one or more pharmaceutically acceptable carriers
(additives) and/or diluents (e.g., pharmaceutically acceptable cell culture medium). In
a related embodiment, the population of cells comprises hematopoietic stem and
progenitor cells.
Also described are pharmaceutical compositions comprising
transduced cells produced according to methods described herein and a
pharmaceutically acceptable carrier. In other embodiments, described are
pharmaceutical compositions comprising a retroviral vector and one or more
compounds, e.g., compounds that increase prostaglandin signaling and/or HDAC
inhibitors, as described herein.
The phrase “pharmaceutically-acceptable” refers to molecular entities
and compositions that do not produce an allergic or similar untoward reaction when
administered to a human. The preparation of an aqueous composition that contains a
protein as an active ingredient is well understood in the art. Typically, such
compositions are prepared as injectables, either as liquid solutions or suspensions;
solid forms suitable for solution in, or suspension in, liquid prior to injection can also
be prepared. The preparation can also be emulsified.
As used herein, “carrier” includes any and all solvents, dispersion
media, vehicles, coatings, diluents, antibacterial and antifungal agents, isotonic and
absorption delaying agents, buffers, carrier solutions, suspensions, colloids, and the
like. The use of such media and agents for pharmaceutical active substances is well
known in the art. Except insofar as any conventional media or agent is incompatible
with the active ingredient, its use in the therapeutic compositions is contemplated.
Supplementary active ingredients can also be incorporated into the compositions.
As used herein “pharmaceutically acceptable carrier” includes any and
all solvents, dispersion media, coatings, antibacterial and antifungal agents, isotonic
and absorption delaying agents, and the like that are physiologically compatible,
including pharmaceutically acceptable cell culture media. In one embodiment, a
composition comprising a carrier is suitable for parenteral administration, e.g.,
intravascular (intravenous or intraarterial), intraperitoneal or intramuscular
administration. Pharmaceutically acceptable carriers include sterile aqueous solutions
or dispersions and sterile powders for the extemporaneous preparation of sterile
injectable solutions or dispersion. The use of such media and agents for
pharmaceutically active substances is well known in the art. Except insofar as any
conventional media or agent is incompatible with the transduced cells, use thereof in
the pharmaceutical compositions described herein is contemplated.
The compositions described herein may comprise one or more
polypeptides, polynucleotides, vectors comprising same, compounds that increase
prostaglandin EP receptor signaling, HDAC inhibitors, and transduced cells, etc., as
described herein, formulated in pharmaceutically-acceptable or physiologically-
acceptable solutions for administration to a cell or an animal, either alone, or in
combination with one or more other modalities of therapy. It will also be understood
that, if desired, the compositions described herein may be administered in
combination with other agents as well, such as, e.g., cytokines, growth factors,
hormones, small molecules or various pharmaceutically-active agents. There is
virtually no limit to other components that may also be included in the compositions,
provided that the additional agents do not adversely affect the ability of the
composition to deliver the intended gene therapy.
In the pharmaceutical compositions described herein, formulation of
pharmaceutically-acceptable excipients and carrier solutions is well-known to those of
skill in the art, as is the development of suitable dosing and treatment regimens for
using the particular compositions described herein in a variety of treatment regimens,
including e.g., oral, parenteral, intravenous, intranasal, and intramuscular
administration and formulation.
In certain circumstances it will be desirable to deliver the compositions
disclosed herein parenterally, intravenously, intramuscularly, or even intraperitoneally
as described, for example, in U.S. Pat. No. 5,543,158; U.S. Pat. No. 5,641,515 and
U.S. Pat. No. 5,399,363 (each specifically incorporated herein by reference in its
entirety). Solutions of the active compounds as free base or pharmacologically
acceptable salts may be prepared in water suitably mixed with a surfactant, such as
hydroxypropylcellulose. Dispersions may also be prepared in glycerol, liquid
polyethylene glycols, and mixtures thereof and in oils. Under ordinary conditions of
storage and use, these preparations contain a preservative to prevent the growth of
microorganisms.
The pharmaceutical forms suitable for injectable use include sterile
aqueous solutions or dispersions and sterile powders for the extemporaneous
preparation of sterile injectable solutions or dispersions (U.S. Pat. No. 5,466,468,
specifically incorporated herein by reference in its entirety). In all cases the form
should be sterile and should be fluid to the extent that easy syringability exists. It
should be stable under the conditions of manufacture and storage and should be
preserved against the contaminating action of microorganisms, such as bacteria and
fungi. The carrier can be a solvent or dispersion medium containing, for example,
water, ethanol, polyol (e.g., glycerol, propylene glycol, and liquid polyethylene
glycol, and the like), suitable mixtures thereof, and/or vegetable oils. Proper fluidity
may be maintained, for example, by the use of a coating, such as lecithin, by the
maintenance of the required particle size in the case of dispersion and by the use of
surfactants. The prevention of the action of microorganisms can be facilitated by
various antibacterial and antifungal agents, for example, parabens, chlorobutanol,
phenol, sorbic acid, thimerosal, and the like. In many cases, it will be preferable to
include isotonic agents, for example, sugars or sodium chloride. Prolonged
absorption of the injectable compositions can be brought about by the use in the
compositions of agents delaying absorption, for example, aluminum monostearate and
gelatin.
For parenteral administration in an aqueous solution, for example, the
solution should be suitably buffered if necessary and the liquid diluent first rendered
isotonic with sufficient saline or glucose. These particular aqueous solutions are
especially suitable for intravenous, intramuscular, subcutaneous and intraperitoneal
administration. In this connection, a sterile aqueous medium that can be employed
will be known to those of skill in the art in light of the present disclosure. For
example, one dosage may be dissolved in 1 ml of isotonic NaCl solution and either
added to 1000 ml of hypodermoclysis fluid or injected at the proposed site of infusion
(see, e.g., Remington: The Science and Practice of Pharmacy, 20th Edition.
Baltimore, MD: Lippincott Williams & Wilkins, 2005). Some variation in dosage
will necessarily occur depending on the condition of the subject being treated. The
person responsible for administration will, in any event, determine the appropriate
dose for the individual subject. Moreover, for human administration, preparations
should meet sterility, pyrogenicity, and the general safety and purity standards as
required by FDA Office of Biologics standards.
Sterile injectable solutions can be prepared by incorporating the active
compounds in the required amount in the appropriate solvent with the various other
ingredients enumerated above, as required, followed by filtered sterilization.
Generally, dispersions are prepared by incorporating the various sterilized active
ingredients into a sterile vehicle which contains the basic dispersion medium and the
required other ingredients from those enumerated above. In the case of sterile
powders for the preparation of sterile injectable solutions, the preferred methods of
preparation are vacuum-drying and freeze-drying techniques which yield a powder of
the active ingredient plus any additional desired ingredient from a previously sterile-
filtered solution thereof.
The compositions disclosed herein may be formulated in a neutral or
salt form. Pharmaceutically-acceptable salts, include the acid addition salts (formed
with the free amino groups of the protein) and which are formed with inorganic acids
such as, for example, hydrochloric or phosphoric acids, or such organic acids as
acetic, oxalic, tartaric, mandelic, and the like. Salts formed with the free carboxyl
groups can also be derived from inorganic bases such as, for example, sodium,
potassium, ammonium, calcium, or ferric hydroxides, and such organic bases as
isopropylamine, trimethylamine, histidine, procaine and the like. Upon formulation,
solutions will be administered in a manner compatible with the dosage formulation
and in such amount as is therapeutically effective. The formulations are easily
administered in a variety of dosage forms such as injectable solutions, drug-release
capsules, and the like.
In certain embodiments, the compositions may be delivered by
intranasal sprays, inhalation, and/or other aerosol delivery vehicles. Methods for
delivering genes, polynucleotides, and peptide compositions directly to the lungs via
nasal aerosol sprays has been described e.g., in U.S. Pat. No. 5,756,353 and U.S. Pat.
No. 5,804,212 (each specifically incorporated herein by reference in its entirety).
Likewise, the delivery of drugs using intranasal microparticle resins (Takenaga et al.,
1998) and lysophosphatidyl-glycerol compounds (U.S. Pat. No. 5,725,871,
specifically incorporated herein by reference in its entirety) are also well-known in the
pharmaceutical arts. Likewise, transmucosal drug delivery in the form of a
polytetrafluoroetheylene support matrix is described in U.S. Pat. No. 5,780,045
(specifically incorporated herein by reference in its entirety).
In certain embodiments, the delivery may occur by use of liposomes,
nanocapsules, microparticles, microspheres, lipid particles, vesicles, optionally
mixing with CPP polypeptides, and the like, for the introduction of the compositions
described herein into suitable host cells. In particular, the compositions described
herein may be formulated for delivery either encapsulated in a lipid particle, a
liposome, a vesicle, a nanosphere, a nanoparticle or the like. The formulation and use
of such delivery vehicles can be carried out using known and conventional
techniques. The formulations and compositions described herein may comprise one or
more repressors and/or activators comprised of a combination of any number of
polypeptides, polynucleotides, and small molecules, as described herein, formulated
in pharmaceutically-acceptable or physiologically-acceptable solutions (e.g., culture
medium) for administration to a cell or an animal, either alone, or in combination with
one or more other modalities of therapy. It will also be understood that, if desired, the
compositions described herein may be administered in combination with other agents
as well, such as, e.g., cells, other proteins or polypeptides or various
pharmaceutically-active agents.
Also described are formulations or compositions suitable for the
delivery of viral vector systems (i.e., viral-mediated transduction) including, but not
limited to, retroviral (e.g., lentiviral) vectors.
Exemplary formulations for ex vivo delivery may also include the use
of various transfection agents known in the art, such as calcium phosphate,
electoporation, heat shock and various liposome formulations (i.e., lipid-mediated
transfection). Liposomes, as described in greater detail below, are lipid bilayers
entrapping a fraction of aqueous fluid. DNA spontaneously associates to the external
surface of cationic liposomes (by virtue of its charge) and these liposomes will
interact with the cell membrane.
Also described are pharmaceutically acceptable compositions which
comprise a therapeutically-effective amount of one or more polynucleotides or
polypeptides, as described herein, formulated together with one or more
pharmaceutically acceptable carriers (additives) and/or diluents (e.g.,
pharmaceutically acceptable cell culture medium).
Particular embodiments may comprise other formulations, such as
those that are well known in the pharmaceutical art, and are described, for example, in
Remington: The Science and Practice of Pharmacy, 20th Edition. Baltimore, MD:
Lippincott Williams & Wilkins, 2005.
In certain embodiments, compositions described herein comprise an
effective amount of a composition and optionally comprise one or more adjunctive
therapies. In certain embodiments, compositions comprising a cell-based composition
and optionally comprising one or more adjunctive therapies can further comprise
sterile saline, Ringer's solution, Hanks Balanced Salt Solution (HBSS), or Isolyte S,
pH 7.4, serum free cellular media, or another pharmaceutically acceptable medium
(e.g., cell culture medium), as discussed elsewhere herein.
In particular embodiments, a composition comprises a population of
cells is treated (e.g., contacted) with one or more compounds that increase
prostaglandin EP receptor signaling and/or one or more HDAC inhibitors, each
independently at a final concentration of about 1 μM to about 100 μM. In certain
embodiments, a population of cells is treated with one or more compounds that
increase prostaglandin EP receptor signaling and/or one or more HDAC inhibitors,
-14 -3
each independently at a final concentration of about 1 x 10 M to about 1 x 10 M,
-13 -4 -12 -5
about 1 x 10 M to about 1 x 10 M, about 1 x 10 M to about 1 x 10 M, about 1 x
-11 -4 -11 -5 -10
M to about 1 x 10 M, about 1 x 10 M to about 1 x 10 M, about 1 x 10 M
-4 -10 -5 -9
to about 1 x 10 M, about 1 x 10 M to about 1 x 10 M, about 1 x 10 M to about 1
-4 -9 -5 -8 -4
x 10 M, about 1 x 10 M to about 1 x 10 M, about 1 x 10 M to about 1 x 10 M,
-7 -4 -6 -4
about 1 x 10 M to about 1 x 10 M, about 1 x 10 M to about 1 x 10 M, or any
intervening ranges of final concentrations.
In another particular embodiment, a population of cells is contacted
with one or more compounds that increase prostaglandin EP receptor signaling and/or
one or more HDAC inhibitors, each independently at a final concentration of about 1
-14 -13 -12 -10 -9
x 10 M, about 1 x 10 M, about 1 x 10 M, about 1 x 10 M, about 1 x 10 M,
-8 -7 -6 -5
about 1 x 10 M, about 1 x 10 M to about 1 x 10 M, about 1 x 10 M, about 1 x
-4 -3
M, about 1 x 10 M, or any intervening final concentration. In compositions
comprising one or more one or more compounds that increase prostaglandin EP
receptor signaling and/or one or more HDAC inhibitors, the compounds can be at
different concentrations from each other or at the same concentration.
One of ordinary skill in the art would be able to use routine methods in
order to determine the appropriate route of administration and the correct dosage of an
effective amount of a composition comprising transduced cells and/or one or more
compounds that increase prostaglandin EP receptor signaling and/or one or more
HDAC inhibitors for methods described herein. It would also be known to those
having ordinary skill in the art to recognize that in certain therapies, multiple
administrations of pharmaceutical compositions described herein will be required to
effect therapy.
For example a composition may be administered 1, 2, 3, 4, 5, 6, 7, 8, 9,
or 10 or more times over a span of 1 week, 2 weeks, 3 weeks, 1 month, 2 months, 3
months, 4 months, 5 months, 6 months, 1 year, 2 years, 5, years, 10 years, or more.
Moreover, multiple administrations of the same or different
compositions of the present invention may be administered, multiples times, for
extended periods of time, as noted above.
Further, administration of the transduced cells and/or one or more
compounds that increase prostaglandin EP receptor signaling and/or one or more
HDAC inhibitors can be by the same route or by different routes as discussed
elsewhere herein. Administration of the transduced cells and/or one or more
compounds that increase prostaglandin EP receptor signaling and/or one or more
HDAC inhibitors can also be performed at different sites using the same or different
administration route of administration. Further, administration of the transduced cells
and/or one or more compounds that increase prostaglandin EP receptor signaling
and/or one or more HDAC inhibitors can be made at the same site by the same route,
at the same time, or at different times.
G. Gene Therapy Methods
The transduced cells and corresponding retroviral vectors provide
improved methods of gene therapy. As used herein, the term “gene therapy” refers to
the introduction of a gene into a cell’s genome. In various embodiments, a viral
vector of the invention comprises a hematopoietic expression control sequence that
expresses a therapeutic transgene encoding a polypeptide that provides curative,
preventative, or ameliorative benefits to a subject diagnosed with or that is suspected
of having monogenic disease, disorder, or condition or a disease, disorder, or
condition that is amenable to hematopoietic stem cell therapy.
In one preferred embodiment, described are transduced cells with the
potential to develop into brain microglial cells. In particular embodiments,
hematopoietic stem cells are transduced with a vector described herein and
administered to an individual in need of therapy for an adrenoleukodystrophy or
adrenomyeloneuropathy. Hematopoietic stem cells are the origin of brain microglial
cells and thus, are preferred.
In particular embodiments, transduced hematopoietic stem or
progenitor cells comprise viral vectors having a hematopoietic expression control
sequence that expresses a therapeutic transgene encoding a polypeptide that provides
curative, preventative, or ameliorative benefits to a subject diagnosed with or that is
suspected of having monogenic disease, disorder, or condition or a disease, disorder,
or condition of the hematopoietic system.
A composition comprising a virus, e.g., lentivirus, and/or one or more
compounds that increase prostaglandin EP receptor signaling and/or one or more
HDAC inhibitors can infect and transduce cells at increased efficiencies in vivo, ex
vivo, or in vitro, compared to cells transduced with vector alone. In ex vivo and in
vitro embodiments, the transduced cells can then be administered to a subject in need
of therapy. The present disclosure contemplates that the vector, viral particles, and
transduced cells of the invention are be used to treat, prevent, and/or ameliorate a
monogenic disease, disorder, or condition or a disease, disorder, or condition of the
hematopoietic system in a subject, e.g., a hemoglobinopathy.
As used herein, “hematopoiesis,” refers to the formation and
development of blood cells from progenitor cells as well as formation of progenitor
cells from stem cells. Blood cells include but are not limited to erythrocytes or red
blood cells (RBCs), reticulocytes, monocytes, neutrophils, megakaryocytes,
eosinophils, basophils, B-cells, macrophages, granulocytes, mast cells, thrombocytes,
and leukocytes.
As used herein, the term “hemoglobinopathy” or “hemoglobinopathic
condition” includes any disorder involving the presence of an abnormal hemoglobin
molecule in the blood. Examples of hemoglobinopathies included, but are not limited
to, hemoglobin C disease, hemoglobin sickle cell disease (SCD), sickle cell anemia,
and thalassemias. Also included are hemoglobinopathies in which a combination of
abnormal hemoglobins are present in the blood (e.g., sickle cell/Hb-C disease).
The term “sickle cell anemia” or “sickle cell disease” is defined herein
to include any symptomatic anemic condition which results from sickling of red blood
cells. Manifestations of sickle cell disease include: anemia; pain; and/or organ
dysfunction, such as renal failure, retinopathy, acute-chest syndrome, ischemia,
priapism and stroke. As used herein the term “sickle cell disease” refers to a variety of
clinical problems attendant upon sickle cell anemia, especially in those subjects who
are homozygotes for the sickle cell substitution in HbS. Among the constitutional
manifestations referred to herein by use of the term of sickle cell disease are delay of
growth and development, an increased tendency to develop serious infections,
particularly due to pneumococcus, marked impairment of splenic function, preventing
effective clearance of circulating bacteria, with recurrent infarcts and eventual
destruction of splenic tissue. Also included in the term “sickle cell disease” are acute
episodes of musculoskeletal pain, which affect primarily the lumbar spine, abdomen,
and femoral shaft, and which are similar in mechanism and in severity to the bends. In
adults, such attacks commonly manifest as mild or moderate bouts of short duration
every few weeks or months interspersed with agonizing attacks lasting 5 to 7 days that
strike on average about once a year. Among events known to trigger such crises are
acidosis, hypoxia and dehydration, all of which potentiate intracellular polymerization
of HbS (J. H. Jandl, Blood: Textbook of Hematology, 2nd Ed., Little, Brown and
Company, Boston, 1996, pages 544-545). As used herein, the term “thalassemia”
encompasses hereditary anemias that occur due to mutations affecting the synthesis of
hemoglobin. Thus, the term includes any symptomatic anemia resulting from
thalassemic conditions such as severe or β-thalassemia, thalassemia major,
thalassemia intermedia, α thalassemias such as hemoglobin H disease.
As used herein, “thalassemia” refers to a hereditary disorder
characterized by defective production of hemoglobin. Examples of thalassemias
include α and β thalassemia. β-thalassemias are caused by a mutation in the beta
globin chain, and can occur in a major or minor form. In the major form of β-
thalassemia, children are normal at birth, but develop anemia during the first year of
life. The minor form of β-thalassemia produces small red blood cells. Thalassemia
minor occurs if you receive the defective gene from only one parent. Persons with this
form of the disorder are carriers of the disease and usually do not have symptoms.
α-thalassemia typically results from deletions involving the HBA1 and
HBA2 genes. Both of these genes encode α-globin, which is a component (subunit)
of hemoglobin. There are two copies of the HBA1 gene and two copies of the HBA2
gene in each cellular genome. As a result, there are four alleles that produce α-globin.
The different types of α-thalassemia result from the loss of some or all of these
alleles. Hb Bart syndrome, the most severe form of α-thalassemia, results from the
loss of all four α-globin alleles. HbH disease is caused by a loss of three of the four
α-globin alleles. In these two conditions, a shortage of α-globin prevents cells from
making normal hemoglobin. Instead, cells produce abnormal forms of hemoglobin
called hemoglobin Bart (Hb Bart) or hemoglobin H (HbH). These abnormal
hemoglobin molecules cannot effectively carry oxygen to the body's tissues. The
substitution of Hb Bart or HbH for normal hemoglobin causes anemia and the other
serious health problems associated with α-thalassemia.
In a preferred embodiment, gene therapy methods described herein are
used to treat, prevent, or ameliorate a hemoglobinopathy is selected from the group
consisting of: hemoglobin C disease, hemoglobin sickle cell disease (SCD), sickle
cell anemia, hereditary anemia, thalassemia, β-thalassemia, thalassemia major,
thalassemia intermedia, α-thalassemia, and hemoglobin H disease.
In various embodiments, the retroviral vectors are administered by
direct injection to a cell, tissue, or organ of a subject in need of gene therapy, in vivo.
In various other embodiments, cells are transduced in vitro or ex vivo with vectors
described herein, and optionally expanded ex vivo. The transduced cells are then
administered to a subject in need of gene therapy.
Cells suitable for transduction and administration in the gene therapy
methods described herein include, but are not limited to stem cells, progenitor cells,
and differentiated cells as described elsewhere herein. In certain embodiments, the
transduced cells are embryonic stem cells, induced pluripotent stem cells, bone
marrow stem cells, umbilical cord stem cells, placental stem cells, mesenchymal stem
cells, neural stem cells, liver stem cells, pancreatic stem cells, cardiac stem cells,
kidney stem cells, hematopoietic stem cells as described elsewhere herein.
In preferred embodiments, the transduced cells are hematopoietic stem
and/or progenitor cells isolated from bone marrow, umbilical cord blood, or
peripheral circulation. In particular preferred embodiments, the transduced cells are
hematopoietic stem cells isolated from bone marrow, umbilical cord blood, or
peripheral circulation.
HSCs may be identified according to certain phenotypic or genotypic
markers. For example, HSCs may be identified by their small size, lack of lineage
(lin) markers, low staining (side population) with vital dyes such as rhodamine 123
(rhodamineDULL, also called rholo) or Hoechst 33342, and presence of various
antigenic markers on their surface, many of which belong to the cluster of
differentiation series (e.g., CD34, CD38, CD90, CD133, CD105, CD45, Ter119, and
c-kit, the receptor for stem cell factor). HSCs are mainly negative for the markers that
are typically used to detect lineage commitment, and, thus, are often referred to as
Lin(-) cells.
In one embodiment, human HSCs may be characterized as CD34+,
CD59+, Thy1/CD90+, CD38lo/-, C-kit/CD117+, and Lin(-). However, not all stem
cells are covered by these combinations, as certain HSCs are CD34-/CD38-. Also
some studies suggest that earliest stem cells may lack c-kit on the cell surface. For
human HSCs, CD133 may represent an early marker, as both CD34+ and CD34-
HSCs have been shown to be CD133+. It is known in the art that CD34+ and Lin(-)
cells also include hematopoietic progenitor cells.
In another embodiment, the hematopoietic hierarchy is determined by a
SLAM code. The SLAM (Signaling lymphocyte activation molecule) family is a
group of >10 molecules whose genes are located mostly tandemly in a single locus on
chromosome 1 (mouse), all belonging to a subset of immunoglobulin gene
superfamily, and originally thought to be involved in T-cell stimulation. This family
includes CD48, CD150, CD244, etc., CD150 being the founding member, and, thus,
also called slamF1, i.e., SLAM family member 1. The signature SLAM code for the
hematopoietic hierarchy is hematopoietic stem cells (HSC) - CD150+CD48-CD244-;
multipotent progenitor cells (MPPs) - CD150-CD48-CD244+; lineage-restricted
progenitor cells (LRPs) - CD150-CD48+CD244+; common myeloid progenitor
(CMP) - lin-SCAc-kit+CD34+CD16/32mid; granulocyte-macrophage progenitor
(GMP) - lin-SCAc-kit+CD34+CD16/32hi; and megakaryocyte-erythroid
progenitor (MEP) - lin-SCAc-kit+CD34-CD16/32low.
In mice, Irving Weissman's group at Stanford University was the first
to isolate mouse hematopoietic stem cells in 1988 and was also the first to work out
the markers to distinguish the mouse hematopoietic hierarchy. The markers for the
hematopoietic hierarchy is long-term hematopoietic stem cells (LT-HSC) - CD34-,
SCA-1+ , Thy1.1+/lo, C-kit+, lin-, CD135-, Slamf1/CD150+; short-term
hematopoietic stem cells (ST-HSC) - CD34+, SCA-1+ , Thy1.1+/lo, C-kit+, lin-,
CD135-, Slamf1/CD150+, Mac-1 (CD11b)lo; early multipotent progenitors – (Early
MPP) - CD34+, SCA-1+ , Thy1.1-, C-kit+, lin-, CD135+, Slamf1/CD150-, Mac-1
(CD11b)lo, CD4lo; and late multipotent progenitors (Late MPP) - CD34+, SCA-1+ ,
Thy1.1-, C-kit+, lin-, CD135high, Slamf1/CD150-, Mac-1 (CD11b)lo, CD4lo.
In one embodiment, the hematopoietic cells are CD105+ Sca1+ cells.
Cells described herein can be autologous/autogeneic (“self”) or non-
autologous (“non-self,” e.g., allogeneic, syngeneic or xenogeneic). “Autologous,” as
used herein, refers to cells from the same subject. “Allogeneic,” as used herein, refers
to cells of the same species that differ genetically to the cell in comparison.
“Syngeneic,” as used herein, refers to cells of a different subject that are genetically
identical to the cell in comparison. “Xenogeneic,” as used herein, refers to cells of a
different species to the cell in comparison. In preferred embodiments, the cells of the
invention are allogeneic.
A “subject,” as used herein, includes any animal that exhibits a
symptom of a monogenic disease, disorder, or condition that can be treated with the
gene therapy vectors, cell-based therapeutics, and methods disclosed elsewhere
herein. In preferred embodiments, a subject includes any animal that exhibits
symptoms of a disease, disorder, or condition of the hematopoietic system, e.g., a
hemoglobinopathy, that can be treated with the gene therapy vectors, cell-based
therapeutics, and methods disclosed elsewhere herein. Suitable subjects (e.g.,
patients) include laboratory animals (such as mouse, rat, rabbit, or guinea pig), farm
animals, and domestic animals or pets (such as a cat or dog). Non-human primates
and, preferably, human patients, are included. Typical subjects include animals that
exhibit aberrant amounts (lower or higher amounts than a “normal” or “healthy”
subject) of one or more physiological activities that can be modulated by gene
therapy.
As used herein “treatment” or “treating,” includes any beneficial or
desirable effect on the symptoms or pathology of a disease or pathological condition,
and may include even minimal reductions in one or more measurable markers of the
disease or condition being treated. Treatment can involve optionally either the
reduction or amelioration of symptoms of the disease or condition, or the delaying of
the progression of the disease or condition. “Treatment” does not necessarily indicate
complete eradication or cure of the disease or condition, or associated symptoms
thereof.
As used herein, “prevent,” and similar words such as “prevented,”
“preventing” etc., indicate an approach for preventing, inhibiting, or reducing the
likelihood of the occurrence or recurrence of, a disease or condition. It also refers to
delaying the onset or recurrence of a disease or condition or delaying the occurrence
or recurrence of the symptoms of a disease or condition. As used herein, “prevention”
and similar words also includes reducing the intensity, effect, symptoms and/or
burden of a disease or condition prior to onset or recurrence of the disease or
condition.
As used herein, the term “amount” refers to “an amount effective” or
“an effective amount” of a virus or transduced therapeutic cell to achieve a beneficial
or desired prophylactic or therapeutic result, including clinical results.
A “prophylactically effective amount” refers to an amount of a virus or
transduced therapeutic cell effective to achieve the desired prophylactic result.
Typically but not necessarily, since a prophylactic dose is used in subjects prior to or
at an earlier stage of disease, the prophylactically effective amount is less than the
therapeutically effective amount.
A “therapeutically effective amount” of a virus or transduced
therapeutic cell may vary according to factors such as the disease state, age, sex, and
weight of the individual, and the ability of the stem and progenitor cells to elicit a
desired response in the individual. A therapeutically effective amount is also one in
which any toxic or detrimental effects of the virus or transduced therapeutic cells are
outweighed by the therapeutically beneficial effects. The term “therapeutically
effective amount” includes an amount that is effective to “treat” a subject (e.g., a
patient).
Without wishing to be bound to any particular theory, an important
advantage provided by the vectors, compositions, and methods described herein is the
high efficacy of gene therapy that can be achieved by administering populations of
cells comprising high percentages of transduced cells compared to existing methods.
The transduced cells may be administered as part of a bone marrow or
cord blood transplant in an individual that has or has not undergone bone marrow
ablative therapy. In one embodiment, transduced cells of the invention are
administered in a bone marrow transplant to an individual that has undergone
chemoablative or radioablative bone marrow therapy.
In one embodiment, a dose of transduced cells is delivered to a subject
intravenously. In preferred embodiments, transduced hematopoietic stem cells are
intravenously administered to a subject.
In one illustrative embodiment, the effective amount of transduced
12 11
cells provided to a subject is less than 1 x 10 cells per 100 kg, less than 1 x 10 cells
9
per 100 kg, less than 1 x 10 cells per 100 kg, less than 1 x 10 cells per 100 kg, less
8 7 6
than 1 x 10 cells per 100 kg, less than 1 x 10 cells per 100 kg, less than 5 x 10 cells
per 100 kg, less than 4 x 10 cells per 100 kg, less than 3 x 10 cells per 100 kg, less
6 6 5
than 2 x 10 cells per 100 kg, less than 1 x 10 cells per 100 kg, less than 5 x 10 cells
per 100 kg, less than 4 x 10 cells per 100 kg, less than 3 x 10 cells per 100 kg, less
5 4
than 2 x 10 cells per 100 kg, less than 1 x 10 cells per 100 kg, less than 5 x 10 cells
per 100 kg, or less than 1 x 10 cells per 100 kg of the subject’s bodyweight.
In another illustrative embodiment, the effective amount of transduced
12 11
cells provided to a subject is about 1 x 10 cells per 100 kg, about 1 x 10 cells per
9 8
100 kg, about 1 x 10 cells per 100 kg, about 1 x 10 cells per 100 kg, about 1 x 10
cells per 100 kg, about 1 x 10 cells per 100 kg, about 5 x 10 cells per 100 kg, about 4
6 6 6
x 10 cells per 100 kg, about 3 x 10 cells per 100 kg, about 2 x 10 cells per 100 kg,
6 5 5
about 1 x 10 cells per 100 kg, about 5 x 10 cells per 100 kg, about 4 x 10 cells per
5 5
100 kg, about 3 x 10 cells per 100 kg, about 2 x 10 cells per 100 kg, about 1 x 10
cells per 100 kg, about 5 x 10 cells per 100 kg, or about 1 x 10 cells per 100 kg.
In another illustrative embodiment, the effective amount of transduced
1 12
cells provided to a subject is from about 1 x 10 cells per 100 kg to about 1 x 10
2 11
cells per 100 kg, from about 1 x 10 cells per 100 kg to about 1 x 10 cells per 100
3 10
kg, from about 1 x 10 cells per 100 kg to about 1 x 10 cells per 100 kg, from about
4 9 5
1 x 10 cells per 100 kg to about 1 x 10 cells per 100 kg, from about 1 x 10 cells per
100 kg to about 1 x 10 cells per 100 kg, from about 1 x 10 cells per 100 kg to about
1 x 10 cells per 100 kg, or any intervening ranges of cells per 100 kg.
In various embodiments, the methods described herein provide more
robust and safer gene therapy than existing methods and comprise administering a
population or dose of cells comprising about 5% transduced cells, about 10%
transduced cells, about 15% transduced cells, about 20% transduced cells, about 25%
transduced cells, about 30% transduced cells, about 35% transduced cells, about 40%
transduced cells, about 45% transduced cells, about 50% transduced cells, about 55%
transduced cells, about 60% transduced cells, about 65% transduced cells, about 70%
transduced cells, about 75% transduced cells, about 80% transduced cells, about 85%
transduced cells, about 90% transduced cells, about 95% transduced cells, about 98%
transduced cells, or about 100% transduced cells, to a subject.
In various embodiments, the vectors, compositions, and methods
described herein offer improved methods of gene therapy using ex vivo gene therapy
and autologous transplantation. In one preferred embodiment, the invention provides
transduced cells, such as a stem cell, e.g., hematopoietic stem cell. In particular
embodiments, hematopoietic stem cells are transduced with a vector of the invention
and administered to an individual in need of therapy for a hemoglobinopathy.
In particular embodiments, hematopoietic stem cells are transduced
with a vector described herein and administered to an individual in need of therapy for
an adrenoleukodystrophy or an adrenomyeloneuropathy.
In one preferred embodiment, described are improved viral vector
systems optimized to express high levels of one or more therapeutic proteins in
erythroid cells or erythroid precursor cells. Retroviral vectors, including lentiviral
vectors, described herein further comprise a polynucleotide-of-interest, including, for
example, a globin gene or a gene which encodes an antisickling protein. In one
embodiment, the globin gene expressed in the retroviral vector described herein is β-
globin, δ-globin, or γ-globin. In another embodiment, the human β-globin gene is the
wild type human β-globin gene or human β -globin gene. In another embodiment,
the human β-globin gene comprises one or more deletions of intron sequences or is a
mutated human β-globin gene encoding at least one antisickling amino acid residue.
Antisickling amino acids can be derived from human δ-globin or human γ-globin. In
another embodiment, the mutated human β-globin gene encodes a threonine to
A-T87Q
glutamine mutation at codon 87 ( β ).
Retroviral vectors, including lentiviral vectors, described herein can be
used in gene therapy, including for the treatment of hemoglobinopathies. In particular
embodiments, described are methods for using the foregoing vectors to achieve stable,
high levels of gene expression in erythroid cells, e.g., in order to treat erythroid-
specific diseases. In a particular embodiment, the gene therapy vectors are used to
treat hemoglobinopathies, including, for example, sickle cell disease (SCD). In
another preferred embodiment, the gene therapy vectors are used for treatment of
thalassemias, including, but not limited to, β-thalassemia.
In another preferred embodiment, hematopoietic stem cells are
transduced with vectors described herein comprising an ABCD1 gene for treatment of
adrenoleukodystropies and/or adrenomyeloneuropathies.
The present invention now will be described more fully by the
following examples. This invention may, however, be embodied in many different
forms and should not be construed as limited to the embodiments set forth herein;
rather, these embodiments are provided so that this disclosure will be thorough and
complete, and will fully convey the scope of the invention to those skilled in the art.
EXAMPLES
EXAMPLE 1
PRESTIMULATION OF CELLS FOR TRANSDUCTION
One vial of CD34+ cells (AllCells) were thawed by incubating at 37°C
for 1-2 minutes and contents were transferred to 10 mL Stem Cell Growth Media
(hereafter referred to as SCGM) in a 15-mL conical tube. Cells were spun for 5
minutes at 1500 RPM in a standard tabletop centrifuge, resuspended in 10 mL SCGM
and counted on a hemacytometer. A volume correlating with an appropriate number
of cells was transferred to a fresh 15-mL conical tube, and again spun for 5 minutes at
1500 RPM. Cells were resuspended to the desired cell concentration in SCGM + 1x
cytokines (100 ng/mL SCF, 100 ng/mL TPO, 100 ng/mL FltL, and 30 ng/mL IL-3),
and plated on a sterile non-adherent surface at 37°C in a standard humidified tissue
culture incubator (5% CO ).
A screen for compounds that increase viral transduction efficiency of
CD34+ cells was conducted using varying concentrations of soluble compounds from
a number of classes (Table 1). The results of the screen are shown in Figure 1.
Table 1
Concentration Wnt3 FGF1 IGF-II SHH Stemregenin-1 dmPGE2
High 100 100 200 100 1000 nM 100 uM
ng/mL ng/mL ng/mL ng/mL
Medium 10 ng/mL 10 ng/mL 20 ng/mL 10 ng/mL 100 nM 10 uM
Low 1 ng/mL 1 ng/mL 2 ng/mL 1 ng/mL 10 nM 1 uM
Table 1 (Cont.)
Concentration SC514 Omuralide Epoxomicin AMD3100 B18R TrichostatinA
High 10 um 1000 nm 10 uM 100 ng/mL 200 3000 nM
ng/mL
Medium 1 um 100 nm 1 uM 10 ng/mL 20 ng/mL 300 nM
Low 0.1 um 10 nm 0.1 uM 1 ng/mL 2 ng/mL 30 nM
EXAMPLE 2
TRANSDUCTION
Pre-stimulated cells (Example 1) were counted after 18-24 hours of
culture. The cells were collected and spun for 5 minutes at 1500 RPM. 1.2 x 10 pre-
stimulated CD34 cells were resuspended in 60 uL 10x cytokines (1000 ng/mL SCF,
1000 ng/mL TPO, 1000 ng/mL FltL, and 300 ng/mL IL-3), 7.8 uL protamine sulfate,
111 uL viral supernatant, and 361.2 uL SCGM. 90 uL cell/virus suspension (about
200,000 cells) was added to each well of a standard non-adherent 96-well plate.
dmPGE2 was added during this viral transduction step at a final concentration of 100
uM, 50 uM, 25 uM, 12.5 uM, 1 uM, or 0 uM. The viral stock had a titer of 2.7 x 10
TU/mL, and the multiplicity of infection (MOI) was about 25.
Cells were incubated at 37°C in a standard humidified tissue culture
incubator (5% CO ).
EXAMPLE 3
DMPGE2 STIMULATION OF CELLS
Aliquots of 10 mM dmPGE2 in DMSO were prepared from 1 mg
previously processed dmPGE2 (Cayman Chemicals). Briefly, air was pipetted into
the vial of dmPGE2 until methyl acetate was evaporated. 263 uL DMSO was added
to the PGE2 remaining in the vial, and aliquots of 25 uL were added to 1.5 mL
Eppendorf tubes and stored at -80°C. 10x working stock solutions were prepared by
serial dilution of dmPGE2 in SCGM, and were then added to cells at appropriate
working concentrations, according to Table 2. Cells were then incubated at 37°C in a
standard humidified tissue culture incubator (5% CO ).
TABLE 2: Serial Dilutions of dmPGE2 and Addition of dmPGE2 to Cells
Stock A Stock B Stock C Stock D Stock E
Frozen Stock dmPGE2 20 0 0 0 0
Volume SCGM 180 100 100 100 92.5
Volume of Stock A 0 100 0 0 0
Volume of Stock B 0 0 100 0 0
Volume of Stock C 0 0 0 100 0
Volume of Stock D 0 0 0 0 8
Concentration of dmPGE2 1 mM 500 uM 250 uM 125 uM 10 uM
For Final Concentration of: 100 uM 50 uM 25 uM 12.5 uM 1 uM
Add 10 uL of: Stock A Stock B Stock C Stock D Stock E
EXAMPLE 4
VALIDATION ASSAYS
Cell Preparation for Validation Assays
After 24 hours of culture with virus and dmPGE2, cells were washed
prior to subsequent functional validation assays. Washing was performed by
transferring cells to a 96-well U-bottom plate and spinning for 5 minutes at 1500
RPM in a standard tabletop centrifuge. Media was aspirated and cells were
resuspended in 200 uL SCGM. Cells were spun again for 5 minutes at 1500 RPM and
media was aspirated. Cells were again resuspended in 200 uL SCGM then spun for 5
minutes at 1500 RPM, and again the media was aspirated. Particular functional
validation assays are described below.
7-Day Liquid Culture
Washed cells were resuspended in 200 uL SCGM + 1x cytokines (as
described in Example 1) and transferred to a standard 12-well non-adherent tissue
culture plate containing an additional 800 uL SCGM + 1x cytokines. Cells were
maintained for an additional 6 days in a standard humidified tissue culture incubator
(5% CO2) and then subjected Vector Copy Number analysis (Example 5) and FACS
analysis. For FACS analysis, cells were assayed for the presence of a virally-encoded
transgene, green fluorescent protein (GFP). The frequency of the virally-labeled cells
within the pool of cultured cells was quantified as the frequency of GFP+ cells within
the population. The mean fluorescence intensity of labeled cells was quantified.
Results for the 7-Day Liquid Culture Assay with varying concentrations of dmPGE2
are shown in Table 3.
Assessment of Colony Forming Unit Activity in Methylcellulose
Washed cells were resuspended in 200 uL SCGM and then transferred
to 3 mL aliquots of cytokine-supplemented methylcellulose (for example, Methocult
M4434 Classic). 1.5 mL was then transferred to parallel 35-mm tissue culture dishes
using a blunt 16-gauge needle. Dishes were maintained in a standard humidified
tissue culture incubator for 14-16 days and colonies were scored for size, morphology,
and cellular composition. Individual colonies were then picked for subsequent Vector
Copy Number analysis (Example 5) or the contents of an entire 35-mm dish were
pooled and then subject to Vector Copy Number analysis (Example 5).
Long Term Culture-Initiating Cells (LTC-IC)
Cells were resuspended in 200 uL SCGM, counted, and then
transferred to pre-plated MS-5 stromal layer at various dilutions (2000; 1000; 500;
250; 125; 62; 31; 16 cells per well in 200µL of StemSpan SFEM (StemCell
Technologies, cat#09650), supplemented with Pen-Strep 100U/mL-100µg/mL) and
24 replicates per dilution. At weekly intervals 100µL was replaced by 100µL of fresh
media. At 5 weeks, the cultures were harvested. 100µL were discarded, cells were
flushed with the 100µL remaining and the well was rinsed with 50µL of fresh media,
and the whole contents were seeded in Methocult™ H4434; 150µL of cell suspension
were homogenized with 600µL of Methocult H4434 and plated in one well of a 12
well-plate for 14 days. Colonies were then counted. The number of wells containing
at least one colony (>40 cells) and the total number of wells analyzed for each
dilution were used to calculate the frequency of LTC-ICs and the 95% confidence
interval using the L-calc software (Stem Cell Technologies). 100 colonies from each
treatment group were picked into 100 different wells and individually scored for the
presence of the vector. 100 colonies from each treatment group were pooled,
genomic DNA was extracted and the mean Vector Copy Number was assessed by
qPCR (Example 5).
Transplantation into NOD/SCID Gamma (NSG) mice
To determine whether dmPGE2 promotes viral transduction of human
long-term hematopoietic stem cells with minimal residual toxicity, transduced cells
were washed and resuspended in phosphate-buffered saline (PBS) and transplanted
into the tail vein of irradiated adult NSG mice. Mice were housed in a pathogen-free
environment per standard IACUC animal care guidelines. At staged timepoints,
human donor-derived contribution to peripheral blood was quantified by collecting
from the mouse via standard protocols. Briefly, red blood cells were pelleted with 2%
Dextran and then the supernatant was further cleared through treatment with red cell
lysis buffer. Mononuclear cells were then stained with fluorophore-conjugated
antibodies as described by Majeti, et al., Cell Stem Cell 2007, and analyzed by flow
cytometry on an LSR-II (Becton Dickinson).
Integration Site Analysis
To determine whether dmPGE2 changes the integration site preference
of lentiviral vector, bone marrow samples from mice transplanted with dmPGE2-
treated and mock-treated virally transduced human hematopoietic stem and progenitor
cells were subjected to linear amplification-mediated PCR (Cartier, (2009) Science
326(5954):818-23). In brief, 1 - 1000 ng of DNA served as template for linear PCR
using retroviral LTR-specific biotinylated primers. Linear PCR products were
separated with paramagnetic beads. Further second strand DNA synthesis, restriction
digest (Tsp509I, NlaIII or HpyCH4IV) and ligation of a linker cassette were
accomplished on semisolid phase, followed by two additional exponential PCR steps.
The resulting LAM-PCR amplicons were further prepared for 454 pyrosequencing
(GS Flx; Roche Diagnostics) by performing an additional exponential PCR to add the
GS Flx specific amplification and sequencing primers A and B to both ends of the
LAM-PCR amplicons. Primer design was done as suggested by the manufacturer. A
recognition sequence of 6 bases was incorporated to primer A to simultaneously
analyze different samples in a single sequencing run. 40ng of purified LAM-PCR
products were used. PCR conditions were as follows: initial denaturation for 120 s at
95 °C; 12 cycles at 95 °C, for 45 s, 60 °C for 45 s and 72 °C for 60 s; final elongation
300 s at 72 °C. LAM-PCR amplicon sequences were trimmed and aligned using
BLAST.
EXAMPLE 5
VECTOR COPY NUMBER ANALYSIS
Briefly, total genomic DNA was isolated from cells through standard
protocols (for example, through DNEasy columns from Qiagen). Genomic DNA was
subjected to quantitative real-time polymerase chain reaction (qRT-PCR) with
TaqMan probes for viral LTR and human beta-actin. The Ct values for viral signal
and beta-actin signal were normalized to a standardized control, and the number of
viral copies per copy of beta actin were calculated. A linear relationship between the
vector copy number and the mean fluorescence intensity (Example 4) was observed
when a viral construct that encodes GFP was used. Results for the Vector Copy
Number (VCN) Analysis with varying concentrations of dmPGE2 are shown in
Tables 3A-C.
Tables 3A-C indicate the dose-response of dmPGE2 in promoting viral
transduction of CD34+ cells for three separate experiments. CD34+ cells were
thawed and pre-stimulated with SCF, TPO, FltL, and IL3, then transduced (A) with
GFP+ lentivirus at a multiplicity of infection of 25, (B) with GFP+ lentivirus at a
multiplicity of infection of 5, or (C) transduced with an ALD (ABCD1)-expressing
lentivirus at a multiplicity of infection of 25. Cells were exposed to dmPGE2 during
the viral transduction step (24-48 hours of culture). Cells were then washed and
analyzed by flow cytometry and PCR after approximately 1 week in culture. The
percentage of cells positive for GFP (A, B) or ALD (C) via FACS staining is
indicated, along with the mean fluorescent intensity (MFI) and vector copy number
(VCN) (A, B).
TABLE 3A: GFP MOI 25
Conc dmPGE2 % Positive (GFP) MFI VCN
100 uM 81.53 1,513,504.00 3.55
50 uM 67.62 977,806.75 2.2
uM 59.99 845,691,00 1.7
12.5 uM 54.71 759,442.75 1.5
0 uM 30.07 583,079.25 0.535
No Virus 0.02 290,577.50 N.D.
TABLE 3B: GFP MOI 5
Conc dmPGE2 % Positive (GFP) MFI VCN
100 uM 42.97 732,716.25 0.83
50 uM 36.80 656,703.50 0.715
uM 18.69 562,428.00 0.21
12.5 uM 17.84 530,218.50 0.18
0 uM 9.05 477,691.00 0.025
No Virus 0.02 290,577.50 N.D.
TABLE 3C: ABCD1 MOI 25
Conc dmPGE2 % Positive
100 uM 72.26
50 uM 56.10
uM 43.76
12.5 uM 45.36
1 uM 34.13
0 uM 21.44
EXAMPLE 6
TIME-COURSE AND DOSE-RESPONSE OF DMPGE2 IN PROMOTING VIRAL
TRANSDUCTION OF CD34+ CELLS
MCD-34+ cells were thawed and pre-stimulated with SCF, TPO, FltL
and IL3, then transduced with GFP+ lentivirus at a multiplicity of infection of 25.
Cells were exposed to dmPGE2 during the viral transduction step (24-25 hours of
culture; 24-26 hours of culture; 24-28 hours of culture; or 24-48 hours of culture) and
then washed and analyzed by flow cytometry after approximately 1 week in culture.
Alternatively, cells were exposed to dmPGE2 during the pre-stimulation step (22-24
hours of culture; 23-24 hours of culture). The percentage of cells positive for GFP is
indicated in Table 4.
TABLE 4
Virus and PGE2 Pre-Stim w/PGE2
Conc Plus 1 Hr Plus 2 Hr Plus 4 Hr 24 Hr Minus 2 Hr Minus 1 Hr
dmPGE2
100 uM 2.48 4.02 21.57 76.44 34.85 25.14
50 uM 1.85 4.23 27.45 54.63 31.85 22.98
uM 1.76 4.76 27.46 50.69 31.90 24.05
12.5 uM 1.97 5.32 28.08 47.42 30.64 22.13
1 uM 2.94 7.17 21.10 32.03 25.74 22.29
0 uM 3.14 7.05 13.61 20.79 20.69 21.31
EXAMPLE 7
CORRECTION OF BETA-THALASSEMIA OR SICKLE CELL DISEASE AFTER TRANSDUCTION
OF HSC WITH LENTIVIRAL VECTORS IN THE PRESENCE OF DMPGE2
Mobilized peripheral blood is to be collected by apheresis from
patients with informed consent and in accordance with approved institutional review
board (IRB) protocols A Ficoll gradient will be used to remove erythrocytes, and
CD34-enriched cells obtained following CD34+ selection using the Miltenyi
CliniMACS system (Miltenyi Biotec). Cells are to be pre-stimulated with human
SCF, FltL, TPO, and IL3 at a concentration of approximately 4E6 cells/mL for 18-24
hours. Cells are then transduced with Lentiglobin GTP, harboring a human β-
globinA-T87Q gene, at a multiplicity of infection of 25 for 18-24 hours in the
presence of SCF, FltL, TPO, IL3, protamine sulfate, and dmPGE2.
Following transduction, a portion of cells are removed for release
testing, and the remainder cryopreserved and stored at -80°C. As part of release
testing, transduced cells for an individual are then subjected to 7-Day culture and
VCN analysis (Example 1) to verify 0.5 to 3 copies per cell average, as well as >50%
transduction efficiency. Upon successful release testing, patients will undergo
treatment with busulfan and cyclophosphamide.
The dose of autologous CD34+ cells is then administered
intravenously to the subject in a single intravenous dose of >3 x 10 CD34+ cells/kg.
Patients are followed daily in the transplant unit for adverse events and laboratory
parameters to monitor bone marrow engraftment.
Once engraftment occurs and patients are stable, they are discharged
from the hospital and followed monthly for 6 months and at least every 3 months for a
total of 24 months. Evaluations will include routine hematology and chemistry safety
laboratory assessment and special hematologic testing, bone marrow examination,
collection of adverse events and concomitant medications, and evaluation of specific
disease-specific hematologic and clinical parameters.
The primary endpoints are safety and tolerability of the Lentiglobin-
transduced cell infusion and time to engraftment of the autologous, manipulated
CD34+ cells. Additional endpoints include biological and biochemical measures of
the presence of the transduced gene and gene product in hematopoietic and blood
cells, transfusion requirements, and the number of hospitalizations and clinical events
occurring at various time periods during the course of the 2-year follow-up period.
All patients will be followed at least yearly for a total of 15 years post-transplant for
serious adverse events, RCL testing, and banking of blood cells for insertional
mutagenesis testing in the event that a malignancy develops.
EXAMPLE 8
CORRECTION OF ADRENOLEUKODYSTROPHY AFTER TRANSDUCTION OF HSC WITH
LENTIVIRAL VECTORS IN THE PRESENCE OF DMPGE2
Mobilized peripheral blood is to be collected by apheresis from
patients with informed consent and in accordance with approved institutional review
board (IRB) protocols. A Ficoll gradient will be used to remove erythrocytes, and
CD34-enriched cells obtained following CD34+ selection using the Miltenyi
CliniMACS system (Miltenyi Biotec). Cells are to be pre-stimulated with human
SCF, FltL, TPO, and IL3 at a concentration of approximately 4E6 cells/mL for 18-24
hours. Cells are then transduced with Lenti-D GTP, harboring a human ABCD1 gene,
at a multiplicity of infection of 25 for 18-24 hours in the presence of SCF, FltL, TPO,
IL3, protamine sulfate, and dmPGE2.
Following transduction, a portion of cells are removed for release
testing, and the remainder cryopreserved and stored at -80°C. As part of release
testing, transduced cells for an individual are then subjected to 7-Day culture and
VCN analysis (Example 1) to verify 0.5 to 3 copies per cell average, as well as >50%
transduction efficiency. Upon successful release testing, patients will undergo
treatment with busulfan and cyclophosphamide.
The dose of autologous CD34+ cells is then administered
intravenously to the subject in a single intravenous dose of >3 x 10 CD34+ cells/kg.
Patients are followed daily in the transplant unit for adverse events and laboratory
parameters to monitor bone marrow engraftment.
Once engraftment occurs and patients are stable, they are discharged
from the hospital and followed monthly for 6 months and at least every 3 months for a
total of 24 months. Evaluations will include routine hematology and chemistry safety
laboratory assessment and special hematologic testing, bone marrow examination,
collection of adverse events and concomitant medications, and evaluation of specific
disease-specific hematologic and clinical parameters.
The primary endpoints are safety and tolerability of the Lenti-D-
transduced cell infusion and time to engraftment of the autologous, manipulated
CD34+ cells. Additional endpoints include biological and biochemical measures of
the presence of the transduced gene and gene product in hematopoietic and blood
cells, brain MRI and cognitive studies, and the number of hospitalizations and clinical
events occurring at various time periods during the course of the 2-year follow-up
period. All patients will be followed at least yearly for a total of 15 years post-
transplant for serious adverse events, RCL testing, and banking of blood cells for
insertional mutagenesis testing in the event that a malignancy develops.
As one skilled in the art will readily recognize having read the present
disclosure, numerous modifications can be made to the embodiments in light of the
above-detailed description. In general, in the following claims, the terms used should
not be construed to limit the claims to the specific embodiments disclosed in the
specification and the claims, but should be construed to include all possible
embodiments along with the full scope of equivalents to which such claims are
entitled. Accordingly, the claims are not limited by the disclosure.
Claims (28)
1. A method for increasing the transduction efficiency of cells cultured with a retrovirus comprising: culturing the cells and the retrovirus in a culture medium that comprises a compound that increases prostaglandin EP receptor signaling, wherein the cells are cultured with the retrovirus during, or prior to, culture with the compound that increases prostaglandin EP receptor signaling, and wherein the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: PGA ; PGB ; PGD ; PGE ; PGE ; 2 2 2 1 2 PGF ; PGI ; PGH ; PGJ ; and precursors, metabolites, derivatives and analogues 2 2 2 2 thereof, or wherein the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: 15d-PGJ ; delta12-PGJ ; 2- hydroxyheptadecatrienoic acid (HHT); Thromboxane A2; Thromboxane B2; Iloprost; Treprostinil; Travoprost; Carboprost tromethamine; Tafluprost; Latanoprost; Bimatoprost; Unoprostone isopropyl; Cloprostenol; Oestrophan; Superphan; Misoprostol; Butaprost; Linoleic Acid; 13(s)-HODE; LY171883; Mead Acid; Eicosatrienoic Acid; Epoxyeicosatrienoic Acid; ONO-259; Cay1039; a PGE receptor agonist; 16,16-dimethyl PGE ; 19(R)-hydroxy PGE ; 16,16-dimethyl PGE p-(p- 2 2 2 acetamidobenzamido) phenyl ester; 11-deoxy-16,16-dimethyl PGE ; 9-deoxy methylene-16,16-dimethyl PGE ; 9-deoxymethylene PGE ; Sulprostone; PGE 2 2 2 serinol amide; PGE methyl ester; 16-phenyl tetranor PGE ; 15(S)methyl PGE ; 2 2 2 15(R)methyl PGE ; BIO; 8-bromo-cAMP; Forskolin; Bapta-AM; Fendiline; Nicardipine; Nifedipine; Pimozide; Strophanthidin; Lanatoside; L-Arg; Sodium Nitroprusside; Sodium Vanadate; Bradykinin; Mebeverine; Flurandrenolide; Atenolol; Pindolol; Gaboxadol; Kynurenic Acid; Hydralazine; Thiabendazole; Bicuclline; Vesamicol; Peruvoside; Imipramine; Chlorpropamide; 1,5- Pentamethylenetetrazole; 4-Aminopyridine; Diazoxide; Benfotiamine; 12- Methoxydodecenoic acid; N-Formyl-Met-Leu-Phe; Gallamine; IAA 94; and Chlorotrianisene, or wherein the compound that increases prostaglandin EP receptor signaling is selected from the group consisting of: prostaglandin E2(PGE ), or 16,16- dimethyl PGE .
2. The method of claim 1, wherein the cells are stem or progenitor cells.
3. The method of claim 2, wherein the stem or progenitor cells are selected from the group consisting of: embryonic stem cells and induced pluripotent stem cells.
4. The method of claim 2, wherein the stem or progenitor cells are selected from the group consisting of: mesenchymal stem cells, hematopoietic stem cells, neuronal stem cells, retinal stem cells, cardiac muscle stem cells, skeletal muscle stem cells, adipose tissue derived stem cells, chondrogenic stem cells, liver stem cells, kidney stem cells, and pancreatic stem cells.
5. The method of claim 2, wherein the stem or progenitor cells are hematopoietic stem or progenitor cells.
6. The method of claim 1, wherein the cells are selected from the group consisting of: osteoblasts, chondrocytes, adipocytes, skeletal muscle, cardiac muscle, neurons, astrocytes, oligodendrocytes, Schwann cells, retinal cells, corneal cells, skin cells, monocytes, macrophages, neutrophils, basophils, eosinophils, erythrocytes, megakaryocytes, dendritic cells, T-lymphocytes, B-lymphocytes, NK- cells, gastric cells, intestinal cells, smooth muscle cells, vascular cells, bladder cells, pancreatic alpha cells, pancreatic beta cells, pancreatic delta cells, hepatocytes, renal cells, adrenal cells, and lung cells.
7. The method of claim 1, wherein the cells are hematopoietic stem or hematopoietic progenitor cells.
8. The method of claim 7, wherein at least about 50% of the hematopoietic stem or progenitor cells are transduced.
9. The method of claim 7, wherein at least about 75% of the hematopoietic stem or progenitor cells are transduced.
10. The method of claim 7, wherein at least about 90% of the hematopoietic stem or progenitor cells are transduced.
11. The method of any one of claims 1 to 10, further comprising culturing the cells and retrovirus in the presence of a histone deacetylase (HDAC) inhibitor.
12. The method of claim 11, wherein the HDAC inhibitor is selected from the group consisting of: Trichostatin A (TSA), valproic acid (VPA), sodium butyrate, suberoylanilide hydroxamic acid (SAHA), sodium phenylbutyrate, depsipeptide, trapoxin (TPX), cyclic hydroxamic acid-containing peptide 1 (CHAPl), MS-275, LBH589, and PXD-101.
13. The method of any one of claims 1 to 12, wherein the retrovirus is a lentivirus.
14. The method of any one of claims 1 to 13, wherein the retrovirus is a Human immunodeficiency virus (HIV) virus.
15. The method of any one of claims 1 to 14, wherein the retrovirus is pseudotyped with a vesicular stomatitis virus G-protein (VSV-G) envelope protein.
16. The method of any one of claims 1 to 15, wherein the cells are cultured in the presence of the compound that increases prostaglandin EP receptor signaling prior to transduction.
17. The method of claim 16, wherein the cells are cultured with the compound that increases prostaglandin EP receptor signaling for at least about 2 hours.
18. The method of claim 16, wherein the cells are cultured with the compound that increases prostaglandin EP receptor signaling for at least about 4 hours.
19. The method of any one of claims 1 to 16, wherein the cells are cultured in the presence of the compound that increases prostaglandin EP receptor signaling during transduction.
20. The method of claim 19, wherein the cells are cultured in the presence of the compound that increases prostaglandin EP receptor signaling for at least about twenty-four hours.
21. The method of any one of claims 18 to 20, wherein the cells are cultured in the presence of the compound that increases prostaglandin EP receptor signaling during the first twenty-four hours of transduction.
22. The method of any one of claims 18 to 21, wherein the cells are cultured in the presence of the compound that increases prostaglandin EP receptor signaling during the first forty-eight hours of transduction.
23. The method of any one of claims 1 to 22, wherein the retrovirus comprises a vector comprising: a) a left (5') retroviral LTR; b) an expression control sequence operably linked to a gene of interest; and c) a right (3') retroviral LTR.
24. The method of any one of claims 8 to 23, wherein the retrovirus comprises a vector comprising: a) a left (5') HIV-1 LTR; b) a Psi packaging sequence ( Ψ+); c) an HIV-1 central polypurine tract/DNA flap (cPPT/FLAP); d) a rev response element (RRE); e) a β-globin promoter and a β-globin locus control region (LCR) operably linked to a gene of interest; and f) a right (3') retroviral LTR that comprises: i) one or more insulator elements, or ii) a rabbit β-globin polyA sequence (r βgpA).
25. The method of any one of claims 8 to 23, wherein the hematopoietic stem or progenitor cells are to be administered to a patient suffering from a hemoglobinopathy.
26. The method of claim 25, wherein the hemoglobinopathy is β- thalassemia or sickle cell disease.
27. The method of any one of claims 8 to 23, wherein the retrovirus comprise a vector comprising: (a) a left (5') HIV-1 LTR; (b) a Psi ( Ψ) packaging signal; (c) a cPPT/FLAP; (d) an RRE; (e) a MND promoter, operably linked to a polynucleotide encoding a human ABCD1 polypeptide; (f) a right (3') HIV-1 LTR; and (g) a rabbit β-globin polyadenylation sequence.
28. The method of any one of claims 1 to 27, wherein the retrovirus is replication defective.
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US201161541736P | 2011-09-30 | 2011-09-30 | |
| US61/541,736 | 2011-09-30 | ||
| PCT/US2012/057987 WO2013049615A1 (en) | 2011-09-30 | 2012-09-28 | Compounds for improved viral transduction |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ623341A NZ623341A (en) | 2016-04-29 |
| NZ623341B2 true NZ623341B2 (en) | 2016-08-02 |
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