NZ627068B2 - E-selectin antagonist compounds, compositions, and methods of use - Google Patents
E-selectin antagonist compounds, compositions, and methods of use Download PDFInfo
- Publication number
- NZ627068B2 NZ627068B2 NZ627068A NZ62706812A NZ627068B2 NZ 627068 B2 NZ627068 B2 NZ 627068B2 NZ 627068 A NZ627068 A NZ 627068A NZ 62706812 A NZ62706812 A NZ 62706812A NZ 627068 B2 NZ627068 B2 NZ 627068B2
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- New Zealand
- Prior art keywords
- compound
- selectin
- cancer
- formula
- alkyl
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- WEMQMWWWCBYPOV-UHFFFAOYSA-N s-indacene Chemical compound C=1C2=CC=CC2=CC2=CC=CC2=1 WEMQMWWWCBYPOV-UHFFFAOYSA-N 0.000 description 1
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- ILMRJRBKQSSXGY-UHFFFAOYSA-N tert-butyl(dimethyl)silicon Chemical group C[Si](C)C(C)(C)C ILMRJRBKQSSXGY-UHFFFAOYSA-N 0.000 description 1
- BCNZYOJHNLTNEZ-UHFFFAOYSA-N tert-butyldimethylsilyl chloride Chemical compound CC(C)(C)[Si](C)(C)Cl BCNZYOJHNLTNEZ-UHFFFAOYSA-N 0.000 description 1
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- MZIYQMVHASXABC-UHFFFAOYSA-N tetrakis(ethenyl)stannane Chemical compound C=C[Sn](C=C)(C=C)C=C MZIYQMVHASXABC-UHFFFAOYSA-N 0.000 description 1
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- PHWBOXQYWZNQIN-UHFFFAOYSA-N ticlopidine Chemical compound ClC1=CC=CC=C1CN1CC(C=CS2)=C2CC1 PHWBOXQYWZNQIN-UHFFFAOYSA-N 0.000 description 1
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- 230000037317 transdermal delivery Effects 0.000 description 1
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- 125000001425 triazolyl group Chemical group 0.000 description 1
- DBGVGMSCBYYSLD-UHFFFAOYSA-N tributylstannane Chemical compound CCCC[SnH](CCCC)CCCC DBGVGMSCBYYSLD-UHFFFAOYSA-N 0.000 description 1
- 229910052905 tridymite Inorganic materials 0.000 description 1
- 229940086542 triethylamine Drugs 0.000 description 1
- ITMCEJHCFYSIIV-UHFFFAOYSA-M triflate Chemical compound [O-]S(=O)(=O)C(F)(F)F ITMCEJHCFYSIIV-UHFFFAOYSA-M 0.000 description 1
- 230000001960 triggered effect Effects 0.000 description 1
- 125000000026 trimethylsilyl group Chemical group [H]C([H])([H])[Si]([*])(C([H])([H])[H])C([H])([H])[H] 0.000 description 1
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- 229960005080 warfarin Drugs 0.000 description 1
- PJVWKTKQMONHTI-UHFFFAOYSA-N warfarin Chemical compound OC=1C2=CC=CC=C2OC(=O)C=1C(CC(=O)C)C1=CC=CC=C1 PJVWKTKQMONHTI-UHFFFAOYSA-N 0.000 description 1
- 239000008215 water for injection Substances 0.000 description 1
- 230000003442 weekly effect Effects 0.000 description 1
- 239000011701 zinc Substances 0.000 description 1
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K31/00—Medicinal preparations containing organic active ingredients
- A61K31/70—Carbohydrates; Sugars; Derivatives thereof
- A61K31/7028—Compounds having saccharide radicals attached to non-saccharide compounds by glycosidic linkages
- A61K31/7034—Compounds having saccharide radicals attached to non-saccharide compounds by glycosidic linkages attached to a carbocyclic compound, e.g. phloridzin
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K45/00—Medicinal preparations containing active ingredients not provided for in groups A61K31/00 - A61K41/00
- A61K45/06—Mixtures of active ingredients without chemical characterisation, e.g. antiphlogistics and cardiaca
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
- A61P35/02—Antineoplastic agents specific for leukemia
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
- A61P35/04—Antineoplastic agents specific for metastasis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
-
- 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
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07H—SUGARS; DERIVATIVES THEREOF; NUCLEOSIDES; NUCLEOTIDES; NUCLEIC ACIDS
- C07H15/00—Compounds containing hydrocarbon or substituted hydrocarbon radicals directly attached to hetero atoms of saccharide radicals
- C07H15/20—Carbocyclic rings
- C07H15/207—Cyclohexane rings not substituted by nitrogen atoms, e.g. kasugamycins
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07H—SUGARS; DERIVATIVES THEREOF; NUCLEOSIDES; NUCLEOTIDES; NUCLEIC ACIDS
- C07H15/00—Compounds containing hydrocarbon or substituted hydrocarbon radicals directly attached to hetero atoms of saccharide radicals
- C07H15/26—Acyclic or carbocyclic radicals, substituted by hetero rings
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09C—TREATMENT OF INORGANIC MATERIALS, OTHER THAN FIBROUS FILLERS, TO ENHANCE THEIR PIGMENTING OR FILLING PROPERTIES ; PREPARATION OF CARBON BLACK ; PREPARATION OF INORGANIC MATERIALS WHICH ARE NO SINGLE CHEMICAL COMPOUNDS AND WHICH ARE MAINLY USED AS PIGMENTS OR FILLERS
- C09C1/00—Treatment of specific inorganic materials other than fibrous fillers; Preparation of carbon black
- C09C1/62—Metallic pigments or fillers
Abstract
Methods and compositions using E-selectin antagonists are provided for the treatment and prevention of diseases and disorders treatable by inhibiting binding of E-selectin to an E-selectin ligand. Described herein are E-selectin antagonists including, for example, glycomimetic compounds, antibodies, aptamers and peptides that are useful in methods for treatment of cancers, and treatment and prevention of metastasis, inhibiting infiltration of the cancer cells into bone marrow, reducing or inhibiting adhesion of the cancer cells to endothelial cells including cells in bone marrow, and inhibiting thrombus formation. These E-selection antagonists have the general formula (Ia) below. aptamers and peptides that are useful in methods for treatment of cancers, and treatment and prevention of metastasis, inhibiting infiltration of the cancer cells into bone marrow, reducing or inhibiting adhesion of the cancer cells to endothelial cells including cells in bone marrow, and inhibiting thrombus formation. These E-selection antagonists have the general formula (Ia) below.
Description
E-SELECTIN ANTAGONIST COMPOUNDS, COMPOSITIONS,
AND METHODS OF USE
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims the benefit under 35 U.S.C. § 119(e) to U.S.
Provisional Application No. 61/579,646 filed December 22, 2011, U.S. Provisional
Application No. 61/583,547 filed January 5, 2012, U.S. Provisional Application No.
61/704,399 filed September 21, 2012, and U.S. Provisional Application No. 61/704,424
filed September 21, 2012, which applications are incorporated by reference herein in
their entirety.
BACKGROUND
Technical Field
Agents and compositions thereof are described herein that are E-selectin
antagonists and may be used as therapeutics. Methods and uses for these E-selectin
antagonists for treating and preventing diseases, disorders, and conditions associated
with E-selectin activity are described herein.
Description of the Related Art
Many pathological conditions such as autoimmune and inflammatory
diseases, shock, and reperfusion injuries involve abnormal adhesion of white blood
cells. When abnormal adhesion of selectin-mediated cell adhesion occurs tissue
damage may result instead of repair. Selectins include three cell adhesion molecules
that have well-characterized roles in leukocyte homing. E-selectin (endothelial
selectin) and P-selectin (platelet selectin) are expressed by endothelial cells at sites of
inflammation or injury. Recent investigations have suggested that cancer cells are
immunostimulatory and interact with selectins to extravasate and metastasize (see, e.g.,
Gout et al., Clin. Exp. Metastasis 25:335-344 (2008); Kannagi et al., Cancer Sci.
95:377-84 (2004); Witz, Immunol. Lett. 104:89-93 (2006); Brodt et al., Int. J. Cancer
71:612-19 (1997)).
A number of cancers are highly treatable when treated before the cancer
has moved beyond the primary site. However, often once the cancer has spread beyond
the primary site, the treatment options are limited and the survival statistics decline
dramatically. For example, when colorectal cancer is detected at a local stage (i.e.,
confined to the colon or rectum), over 90% of those diagnosed survive more than five
years. Conversely, when colorectal cancer has spread to distant sites (i.e., metastasized
from the primary site to distant sites), the five-year survival rate of those diagnosed
drops dramatically to only 11%.
The most common types of cancer include prostate, breast, lung,
colorectal, melanoma, bladder, non-Hodgkin lymphoma, kidney, thyroid, leukemias,
endometrial, and pancreatic cancers based on estimated incidence for 2012. The cancer
with the highest expected incidence is prostate cancer, with more than 240,000 new
cases expected in the U.S. in 2012, and the lowest expected incidence is pancreatic
cancer, with approximately 44,000 new cases expected in 2012.
The highest mortality rate is for patients who have lung cancer. More
than 160,000 patients are expected to succumb to the disease in 2012. Despite
enormous investments of financial and human resources, cancer such as colorectal
cancer remains one of the major causes of death. Colorectal cancer is the second
leading cause of cancer-related deaths in the United States of cancers that affect both
men and women. Over the last several years, more than 50,000 patients with colorectal
cancer have died every year.
The four hematological cancers that are most common are acute
lymphocytic leukemia (ALL), chronic lymphocytic leukemia (CLL), chronic
myelogenous leukemia (CML), and acute myelogenous leukemia (AML). Leukemias
and other cancers of the blood, bone marrow, and lymphatic system, affect 10 times
more adults than children; however, leukemia is the most common childhood cancer,
and 75% of childhood leukemias are ALL. AML is the most common leukemia in
adults. Approximately 47,000 new cases are diagnosed every year, and approximately
23,500 people die every year from leukemia.
Cancer therapeutic drugs may contribute to endothelial injury, which can
in turn cause venous thromboembolism (VTE). Other risk factors that predispose an
individual to VTE include stasis or endothelial injury (e.g., resulting from indwelling
venous device; major trauma or injury), medical conditions, (e.g., malignancy,
pregnancy, cardiovascular conditions or events), administration of other drugs such as
hormones, and thrombophilia. Blockage of the flow of blood in a body deprives tissue
of oxygen and results in damage, destruction or death of the tissue. A thrombus and an
embolism can lodge in a blood vessel and block the flow of blood. In the United States,
approximately 900,000 cases of VTE, which includes deep venous thrombosis (DVT)
and pulmonary embolism (PE), are diagnosed annually and about 300,000 cases are
fatal (Heit et al., Blood 2005; 106 (abstract)). Venous thrombosis occurs when red
blood cells and fibrin, and to a minor degree, platelets and leukocytes, form a mass
within an intact vein. Typically, a pulmonary embolism occurs when a thrombus or a
portion of the thrombus detaches from a vein wall and lodges within a pulmonary
artery. Because signs and symptoms of VTE are nonspecific and difficult to diagnose,
the exact incidence of VTE is unknown but may have an annual incidence of 0.1-0.2%
(see, e.g., Anderson et al., Arch. Intern. Med. 151:933-38 (1991); Silverstein et al.,
Arch. Intern. Med. 158:585-93 (1998)).
In this specification where reference has been made to patent
specifications, other external documents, or other sources of information, this is
generally for the purpose of providing a context for discussing the features of the
invention. Unless specifically stated otherwise, reference to such external documents is
not to be construed as an admission that such documents, or such sources of
information, in any jurisdiction, are prior art, or form part of the common general
knowledge in the art.
BRIEF SUMMARY
Briefly, provided herein are agents that are E-selectin antagonists,
compositions comprising the agents, and methods for using the agents. These agents
are useful for treating and preventing diseases and disorders treatable by inhibiting
binding of an E-selectin to an E-selectin ligand, such as cancer, metastasis, and
thrombosis among others described herein. In certain embodiments, glycomimetic
compounds that are E-selectin antagonists are provided.
In a first aspect, the present invention provides a compound having the
formula (I):
or a pharmaceutically acceptable salt, stereoisomer, tautomer, hydrate or solvate
thereof, wherein:
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl;
2 8 2 8
R is a linker-non-glycomimetic moiety, wherein the non-glycomimetic moiety
comprises polyethylene glycol, and wherein the linker is -C(=O)NH(CH ) NHC(=O)-;
2 1-4
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl, C -C haloalkynyl or cyclopropyl;
2 8 2 8
4 1 2 1 2
R is -OH or –NZ Z where Z and Z are each independently H, C -C alkyl,
C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl
2 8 2 8 1 8 2 8 2 8
or wherein Z and Z join to form a ring;
R is C -C cycloalkyl;
R is -OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl;
2 8 2 8
R is -CH OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
2 1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl; and
2 8 2 8
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl.
2 8 2 8
In a second aspect, the present invention provides a pharmaceutical
composition comprising a compound of the first aspect and a pharmaceutically
acceptable excipient.
In a third aspect, the present invention provides use of the compound of
first aspect in the manufacture of a medicament for treating or preventing metastasis of
cancer cells.
In a fourth aspect, the present invention provides use of the compound of
the first aspect in the manufacture of a medicament for use in combination with
chemotherapy or radiotherapy or both chemotherapy and radiotherapy for treating
cancer.
In a fifth aspect, the present invention provides use of the compound of
the first aspect in the manufacture of a medicament for treating or preventing
thrombosis.
In a sixth aspect, the present invention provides use of the compound of
the first aspect in the manufacture of a medicament for inhibiting infiltration of cancer
cells into bone marrow.
In a seventh aspect, the present invention provides use of the compound
of the first aspect in the manufacture of a medicament for inhibiting adhesion of a
tumor cell that expresses a ligand of E-selectin to an endothelial cell expressing E-
selectin.
In an eighth aspect, the present invention provides use of the compound
the first aspect in the manufacture of a medicament for enhancing hematopoietic stem
cell survival.
Disclosed herein are the following embodiments.
In one embodiment, provided herein is a compound (which is a
glycomimetic compound) having the following formula (I):
or a pharmaceutically acceptable salt, isomer, tautomer, hydrate, or solvate thereof,
1 2 3 4 5 6 7 8
wherein each of R , R , R , R , R , R , R and R have the definitions described herein.
In certain embodiments, R is C -C alkyl, C -C alkenyl, C -C alkynyl,
1 8 2 8 2 8
C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl;
1 8 2 8 2 8
R is H, or a non-glycomimetic moiety or a linker-non-glycomimetic
moiety, wherein the non-glycomimetic moiety is selected from polyethylene glycol,
thiazolyl, chromenyl,-C(=O)NH(CH ) NH , C -C alkyl, and -C(=O)OY where Y is
2 1-4 2 1 8
C -C alkyl, C -C alkenyl or C -C alkynyl;
1 4 2 4 2 4
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl, C -C haloalkynyl or cyclopropyl;
2 8 2 8
4 1 2 1 2
R is -OH or –NZ Z where Z and Z are each independently H, C -C
alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C
2 8 2 8 1 8 2 8 2 8
haloalkynyl or wherein Z and Z join to form a ring;
R is C -C cycloalkyl;
R is -OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl;
2 8 2 8
R is -CH OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C
2 1 8 2 8 2 8 1 8
haloalkyl, C -C haloalkenyl or C -C haloalkynyl; and
2 8 2 8
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl.
2 8 2 8
Additional substructures including, for example compounds of formula
(Ia) and other substructures and specific structures of the glycomimetic compound of
formula (I) are described in greater detail herein. Pharmaceutical compositions are also
provided that comprise any one or more of the compounds described above and herein
and a pharmaceutically acceptable excipient.
Provided herein is a method for treating or preventing metastasis of
cancer cells in a subject, comprising administering to the subject a compound having a
structure of formula (I), substructure (Ia), or any other substructure or specific structure
described herein, or administering a pharmaceutical composition comprising the
compound and a pharmaceutically acceptable excipient.
In another embodiment, a method is provided for treating or preventing
metastasis of cancer cells in a subject, comprising administering to the subject a
pharmaceutical composition comprising (a) a pharmaceutically acceptable excipient,
and (b) an agent that is capable of competing with a compound having a structure of
formula (I), substructure (Ia), or any other substructure or specific structure described
herein for binding to E-selectin; wherein the agent is an antibody, polypeptide, peptide
or aptamer.
In still another embodiment, a method is provided for inhibiting
infiltration of cancer cells into bone marrow in a subject, comprising administering to
the subject a compound having a structure of formula (I), substructure (Ia), or any other
substructure or specific structure described herein, or administering a pharmaceutical
composition comprising the compound and a pharmaceutically acceptable excipient.
In another embodiment, a method is provided for inhibiting infiltration
of cancer cells into bone marrow in a subject, comprising administering to the subject a
pharmaceutical composition comprising (a) a pharmaceutically acceptable excipient,
and (b) an agent that is capable of competing with a compound having a structure of
formula (I), substructure (Ia), or any other substructure or specific structure described
herein for binding to E-selectin; wherein the agent is an antibody, polypeptide, peptide
or aptamer.
In one embodiment, a method is provided for inhibiting adhesion of a
tumor cell that expresses a ligand of E-selectin to an endothelial cell expressing E-
selectin, wherein the method comprises contacting the endothelial cell with a compound
having a structure of formula (I), substructure (Ia), or any other substructure or specific
structure described herein, or administering a pharmaceutical composition comprising
the compound and a pharmaceutically acceptable excipient, permitting the compound to
interact with E-selectin present on the endothelial cell, and thereby inhibiting binding of
the tumor cell to the endothelial cell. In a specific embodiment, the endothelial cell is
present in the bone marrow.
In another embodiment, a method is provided for treating a cancer in a
subject comprising administering to the subject (a) a compound having a structure of
formula (I), substructure (Ia), or any other substructure or specific structure described
herein, or administering a pharmaceutical composition comprising the compound and a
pharmaceutically acceptable excipient; and (b) at least one of (i) chemotherapy and (ii)
radiotherapy.
In still another embodiment, a method is provided for treating or
preventing thrombosis in a subject, comprising administering to the subject a compound
having a structure of formula (I), substructure (Ia), or any other substructure or specific
structure described herein, or administering a pharmaceutical composition comprising
the compound and a pharmaceutically acceptable excipient.
In yet another a method for treating or preventing thrombosis in a
subject, comprising administering to the subject a pharmaceutical composition
comprising a pharmaceutical composition comprising (a) a pharmaceutically acceptable
excipient, and (b) an agent that is capable of competing with a compound having a
structure of formula (I), substructure (Ia), or any other substructure or specific structure
described herein for binding to E-selectin; wherein the agent is an antibody,
polypeptide, peptide or aptamer.
In one embodiment, a method is provided for enhancing hematopoietic
stem cell survival in a subject, comprising administering to the subject a compound
having a structure of formula (I), substructure (Ia), or any other substructure or specific
structure described herein, or administering a pharmaceutical composition comprising
the compound and a pharmaceutically acceptable excipient. In yet another
embodiment, a method is provided for enhancing hematopoietic stem cell survival in a
subject, comprising administering to the subject a pharmaceutical composition
comprising (a) a pharmaceutically acceptable excipient, and (b) an agent that is capable
of competing with a compound having a structure of formula (I), substructure (Ia), or
any other substructure or specific structure described herein for binding to E-selectin;
wherein the agent is an antibody, polypeptide, peptide or aptamer. In certain
embodiments, the subject has received or will receive chemotherapy or radiotherapy or
both chemotherapy and radiotherapy.
Also provided herein is a use of a compound having a structure of
formula (I), substructure (Ia), or any other substructure or specific structure described
herein in the manufacture of a medicament for treating or preventing metastasis of
cancer cells.
In another embodiment, provided herein is a use of a compound having a
structure of formula (I), substructure (Ia), or any other substructure or specific structure
described herein in the manufacture of a medicament for use in combination with
chemotherapy or radiotherapy or both chemotherapy and radiotherapy for treating
cancer.
In another embodiment, provided herein is a use of a compound having a
structure of formula (I), substructure (Ia), or any other substructure or specific structure
described herein in the manufacture of a medicament for treating or preventing
thrombosis.
In yet another embodiment, provided herein is a use of a compound
having a structure of formula (I), substructure (Ia), or any other substructure or specific
structure described herein in the manufacture of a medicament for inhibiting infiltration
of cancer cells into bone marrow.
In still another embodiment, provided herein is a use of a compound
having a structure of formula (I), substructure (Ia), or any other substructure or specific
structure described herein in the manufacture of a medicament for inhibiting adhesion
of a tumor cell that expresses a ligand of E-selectin to an endothelial cell expressing E-
selectin.
In another embodiment, provided herein is a use of a compound having a
structure of formula (I), substructure (Ia), or any other substructure or specific structure
described herein in the manufacture of a medicament for enhancing hematopoietic stem
cell survival.
In another embodiment, a method is provided for treating or preventing
(i.e., decreasing or reducing the likelihood of occurrence of) metastasis of cancer cells
in an individual (i.e., subject) who is in need thereof, comprising administering to the
individual any one or more of the glycomimetic compounds of formula (I) described
above and herein or a pharmaceutical composition comprising the compound.
In yet another embodiment, a method is provided for decreasing the
likelihood of occurrence of metastasis of cancer cells in an individual who is in need
thereof, comprising administering to the individual an agent that competes with the
compound of formula (I) described above and herein for binding to E-selectin; wherein
the agent is an antibody, polypeptide, peptide or aptamer. In certain embodiments, the
agent is in combination with a pharmaceutically acceptable excipient (i.e., a
pharmaceutical composition).
In still another embodiment, a method is provided for decreasing the
likelihood of occurrence of infiltration of cancer cells into bone marrow in an individual
who is in need thereof, said method comprising administering to the individual any one
or more of the glycomimetic compounds of formula (I) described above and herein or a
pharmaceutical composition comprising the compound.
In another embodiment, a method is provided for decreasing the
likelihood of occurrence of infiltration of cancer cells into bone marrow in an individual
who is in need thereof, comprising administering to the individual an agent that
competes (i.e., is capable of competing) with the compound of formula (I) described
above and herein for binding to E-selectin; wherein the agent is an antibody,
polypeptide, peptide or aptamer. In certain embodiments, the agent is in combination
with a pharmaceutically acceptable excipient (i.e., a pharmaceutical composition).
In yet another embodiment, a method is provided for decreasing the
likelihood of occurrence of thrombus formation in an individual, comprising
administering to the individual any one or more of the glycomimetic compounds
described above and herein, or a pharmaceutical composition comprising the
compounds. In other particular embodiments, a method is provided for decreasing the
likelihood of occurrence of thrombus formation in an individual, comprising
administering to the individual any one or more of an agent that competes (i.e., is
capable of competing) with the compound described above and herein for binding to E-
selectin; wherein the agent is an antibody, polypeptide, peptide or aptamer.
In the following description, certain specific details are set forth in order
to provide a thorough understanding of various embodiments. However, one skilled in
the art will understand that the invention may be practiced without these details. In
other instances, well-known structures have not been shown or described in detail to
avoid unnecessarily obscuring descriptions of the embodiments. Unless the context
requires otherwise, throughout the specification and claims which follow, the word
“comprise” and variations thereof, such as, “comprises” and “comprising” are to be
construed in an open, inclusive sense, that is, as “including, but not limited to.” In
addition, the term “comprising” (and related terms such as “comprise” or “comprises”
or “having” or “including”) is not intended to exclude that in other certain
embodiments, for example, an embodiment of any composition of matter, composition,
method, or process, or the like, described herein, may “consist of” or “consist
essentially of” the described features. Headings provided herein are for convenience
only and do not interpret the scope or meaning of the claimed embodiments.
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. 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.
Also, as used in this specification and the appended claims, the singular
forms “a,” “an,” and “the” include plural referents unless the content clearly dictates
otherwise. Thus, for example, reference to “a compound” may refer to one or more
compounds, or a plurality of such compounds, and reference to “a cell” or “the cell”
includes reference to one or more cells and equivalents thereof (e.g., plurality of cells)
known to those skilled in the art, and so forth. Similarly, reference to “a composition”
includes a plurality of such compositions, and refers to one or more compositions unless
the context clearly dictates otherwise. When steps of a method are described or claimed,
and the steps are described as occurring in a particular order, the description of a first
step occurring (or being performed) “prior to” (i.e., before) a second step has the same
meaning if rewritten to state that the second step occurs (or is performed) “subsequent”
to the first step. The term “about” when referring to a number or a numerical range
means that the number or numerical range referred to is an approximation within
experimental variability (or within statistical experimental error), and thus the number
or numerical range may vary between 1% and 15% of the stated number or numerical
range. It should also be noted that the term “or” is generally employed in its sense
including “and/or” unless the content clearly dictates otherwise. The term, “at least
one,” for example, when referring to at least one compound or to at least one
composition, has the same meaning and understanding as the term, “one or more.”
In the description in this specification reference may be made to subject
matter which is not within the scope of the claims of the current application. That
subject matter should be readily identifiable by a person skilled in the art and may assist
in putting into practice the invention as defined in the claims of this application.
These and other aspects of the present invention will become apparent
upon reference to the following detailed description and attached drawings. All
references disclosed herein are hereby incorporated by reference in their entirety as if
each was incorporated individually.
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 (Fig. 1A, Fig. 1B, Fig. 1C and Fig. 1D) is a diagram illustrating
the synthesis of an embodiment (compound 25) of the compounds having formula I
provided herein.
Figure 2 is a diagram illustrating the synthesis of an embodiment of the
compounds having formula I provided herein.
Figure 3 is a diagram illustrating that E-selectin plays a central role in
the progression of cancer.
Figure 4 is a graph depicting the results of a comparison of the effects of
compound 25 (“Cmpd. 25”) of Figure 1 versus low molecular weight heparin (“LMW
heparin”) on the weight of thrombus formed 2 days after EIM (electrolytic inferior vena
cava model) injury. “No treatment” represents the weight of the thrombus 2 days after
EIM injury. “Control” (saline) represents venous explant with no injury. “Sham”
represents a venous explant 2 days after implantation of the electrode with no current.
Compound 25 vs. No treatment, P = 0.0271; LMW heparin vs. No treatment, P =
0.0203.
Figure 5 is a graph depicting the results of a comparison of the effects of
compound 25 (“Cmpd. 25”) versus low molecular weight heparin (“LMWH”) on the
time required to form a clot.
DETAILED DESCRIPTION
Provided herein are agents that inhibit binding of E-selectin to an E-
selectin ligand. The agents include glycomimetic compounds described herein that
a a x x
inhibit interaction of E-selectin with sialyl Le (sLe ) or sialyl Le (sLe ). Agents that
are also provided are antibodies, polypeptides, peptides and aptamers that bind at or
near the binding site on E-selectin to which the compounds bind (i.e., an antibody,
polypeptide, peptide, or aptamer as described herein that is capable of competing with
a a x
the compounds to inhibit E-selectin interaction with sialyl Le (sLe ) or sialyl Le
(sLe )).
The E-selectin antagonists described herein may be used in methods for
treating a disease or disorder associated with, mediated by, or exacerbated by E-selectin
binding to an E-selectin ligand, which in turn causes an undesired biological activity,
including, for example, an inflammatory response, promotion of tumor cell migration
(i.e., promoting or enhancing metastasis), enhancing chemotherapy resistance of tumor
cells, and contributing to thrombus formation. In certain embodiments, the agents,
including the E-selectin antagonist glycomimetic compounds described herein, may be
used in the treatment of cancers in combination with chemotherapy, radiotherapy, or
both. In still other embodiments, the compounds described herein may be used for
treatment and prevention of metastasis of cancer cells (also called herein tumor cells),
including inhibiting infiltration of the cancer cells into bone marrow and reducing or
inhibiting adhesion of the cancer cells to endothelial cells including cells in bone
marrow.
Provided herein are agents, such as glycomimetic compounds, that
significantly inhibited venous thromboembolism in a treatment model of thrombus
formation and which have certain advantages over current treatments of thrombosis.
The agents described herein therefore can be used for treating and preventing (i.e.,
decreasing, inhibiting, or reducing the likelihood of occurrence in a statistical,
biological, or clinically significant manner) thrombosis, including deep vein thrombosis
and accompanying pulmonary embolism.
E-selectin antagonists (e.g., compounds of formula I) described herein
comprise substituents that are less likely to be cleaved by esterases and thus have
increased stability. These compounds therefore provide improved compounds than
those previously described in the art.
Agents
In one embodiment provided herein, the E-selectin antagonist is a
glycomimetic compound that has the following formula (I):
or a pharmaceutically acceptable salt (i.e., physiologically suitable salt), isomer,
tautomer, hydrate or solvate thereof. Formula I comprises R to R that represent
positions on the compound at which a substituent (e.g., R ) or a portion of a substituent
(e.g., R ) may be varied according to the choices provided herein.
In one embodiment, R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -
1 8 2 8 2 8 1
C haloalkyl, C -C haloalkenyl or C -C haloalkynyl;
8 2 8 2 8
R is H, or a non-glycomimetic moiety or a linker-non-glycomimetic
moiety (i.e., a linker joined to a non-glycomimetic moiety), wherein the non-
glycomimetic moiety is selected from polyethylene glycol, thiazolyl, chromenyl,C -C
alkyl, -C(=O)NH(CH ) NH and -C(=O)OY where Y is C -C alkyl, C -C alkenyl or
2 1-4 2 1 4 2 4
C -C alkynyl;
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl, C -C haloalkynyl or cyclopropyl;
2 8 2 8
4 1 2 1 2
R is -OH, or -NZ Z , where Z and Z are each independently H, C -C
alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C
2 8 2 8 1 8 2 8 2 8
haloalkynyl or wherein Z and Z join to form a ring;
R is C -C cycloalkyl;
R is -OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl;
2 8 2 8
R is -CH OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C
2 1 8 2 8 2 8 1 8
haloalkyl, C -C haloalkenyl or C -C haloalkynyl; and
2 8 2 8
R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl,
1 8 2 8 2 8 1 8
C -C haloalkenyl or C -C haloalkynyl.
2 8 2 8
In some embodiments, the compound of formula (I) is selected from
1 3 6 7 8
compounds wherein (a) at least one of R , R , R , R and R is C -C haloalkyl; (b) at
3 6 7 8 1 3 6 7
least one of R , R , R and R is C -C haloalkyl; (c) at least two of R , R , R , R and
R are C -C haloalkyl; (d) R is a linker-non-glycomimetic moiety; or (e) at least one
1 3 6 7 8 2
of R , R , R , R and R is C -C haloalkyl, and R is a linker-non-glycomimetic moiety.
In a particular embodiment of the compound of formula I, C -C
haloalkyl is selected from -CH X, -CH -(CH ) - CH X, -CHX , -CH -(CH ) - CHX ,
2 2 2 2 2 2 2 2
-CX and -CH -(CH ) -CX , wherein m is 0-6 and X is F, Cl, Br or I. In this
3 2 2 3
embodiment, the terminal carbon is substituted with one or more halo radicals. In
specific embodiments, X is F. When two or more halo radicals are present, each is
independently selected. The number of methylene groups represented by “m” is “0-6”
which includes 0, 1, 2, 3, 4, 5, 6 and all ranges between and including 0 to 6. In certain
embodiments, at least one of C -C haloalkyl is CH X, -CHX , or -CX ; in certain more
1 8 2 2 3
specific embodiments, X is F.
In one embodiment of the compound of formula (I), R is C -C alkyl,
C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl.
2 8 2 8 1 8 2 8 2 8
In certain embodiments of the compound of formula I, R is C -C alkyl or C -C
1 8 1 8
haloalkyl. In more particular embodiments, R is C -C alkyl or C -C haloalkyl. In a
1 3 1 3
more specific embodiment, R is methyl (-CH ), ethyl (CH CH ), or -CF or -CHF In
3 2 3 3 2.
another embodiment, R is methyl (-CH ) or -CHF
3 2.
In one embodiment of the compound of formula (I), R is H, or a non-
glycomimetic moiety (M) or a linker (L)-non-glycomimetic moiety, wherein the non-
glycomimetic moiety is selected from C -C alkyl, -C(=O)NH(CH ) NH ,
1 8 2 1-4 2
polyethylene glycol (PEG), thiazolyl, chromenyl and -C(=O)OY wherein Y is C -C
alkyl, C -C alkenyl or C -C alkynyl. In one particular embodiment, R is a non-
2 4 2 4
glycomimetic moiety (M), linker (L)-non-glycomimetic moiety (also indicated as –L-
non-glycomimetic moiety or -L-M), wherein the non-glycomimetic moiety is
polyethylene glycol. In a particular embodiment, R is -C(=O)NH(CH ) NH . In
2 2 2
certain embodiments, when R comprises the non-glycomimetic moiety or a linker-
non-glycomimetic moiety described herein, these moieties provide advantageous or
improved characteristics such as enhanced bioavailability; desired pharmacokinetics;
improved stability, and the like, to the compound and are non-immunogenic. Other
exemplary non-glycomimetic moieties described herein include thiazolyl and
chromenyl heteroaryls, for example 4-methylthiazolyl and 7-hydroxy-2H-chromen
on-yl. In some embodiments, R is H.
R may be attached to the glycomimetic portion of the compounds of
formula (I) either directly or via a linker (L). Linkers are well known to a person of
ordinary skill in the art. In particular embodiments, the linker that joins the
glycomimetic moiety of formula I to a non-glycomimetic moiety (M) is
-C(=O)NH(CH ) NHC(=O)-; in more specific embodiments, the linker is
2 1-4
-C(=O)NH(CH )NHC(=O)-, or the linker is -C(=O)NH(CH ) NHC(=O)-. In other
2 2 2
certain embodiments, the linker is -C(=O)NH(CH ) NHC(=O)(CH ) ; in more
2 1-4 2 1-4
specific embodiments, the linker is -C(=O)NH(CH )NHC(=O)-CH , or the linker is
-C(=O)NH(CH ) NHC(=O)-(CH ) . Linkers also include those called in the art “click
2 2 2 2
chemistry” linkers (see, e.g., Brik et al., Chem. Bio. Chem. 2003, 4, 1246; Helms et al.,
J. Am. Chem. Soc. 2004, 126, 15020; Lober et al., Org. Lett. 2003, 5, 1753; Moses et
al., Chem. Soc. Rev 2007, 36, 1249–1262).
Other exemplary linkers are described in International Application
Publication . By way of additional example, linkers include the
following.
H S H
N C N
EtO OEt
Squaric acid Thiourea
EtO OEt
HNOC CONH
(O)n
Dithiadiazoleoxide Acylation via Thiofuran
H O O H
N C (CH )
CH NH
2 2 N C (CH )n C N
N-Pentenoylation and Coupling via bifunctional NHS reagent
reductive amination
In still other embodiments, the linker is
In another embodiment, the linker is –C(=O)–NH–(CH ) –NH–; –CH –
2 2 2
NH–CH –, or is –C(=O)–NH–CH –.
In one embodiment of the compound of formula (I), R is C -C alkyl,
C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl, C -C haloalkynyl or
2 8 2 8 1 8 2 8 2 8
cyclopropyl. In other certain embodiments of the compound of formula I, R is C -C
alkyl or C -C haloalkyl or cyclopropyl. In more particular embodiments, R is C -C
1 8 1 3
alkyl or C -C haloalkyl. In more specific embodiments, R is –CH (methyl) or –CH -
1 3 3 2
CH (ethyl) or –CF or -CHF . In still other embodiments, R is methyl or
3 3 2
trifluoromethyl.
In one embodiment of the compound of formula (I), R is -OH, or
1 2 1 2
-NZ Z , where – Z and Z are each independently H, C -C alkyl, C -C alkenyl,
1 8 2 8
C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl or wherein Z
2 8 1 8 2 8 2 8
2 1 2
and Z join to form a ring. When Z and Z join to form a ring, the ring is a
heterocyclic ring wherein the heteroatom is N. In one specific embodiment, R is –OH
1 2 1 2
or -NZ Z wherein Z and Z are each H or C -C alkyl. In a more specific
1 2 1 2
embodiment, Z and Z are each –CH and -NZ Z is -N(CH ) .
3 3 2
In one embodiment of the compound of formula (I), R is C -C
cycloalkyl (i.e., cyclopropyl, cyclobutyl, cyclopentyl, cyclohexyl, cycloheptyl or
cyclooctyl). In another embodiment, R is C -C cycloalkyl (i.e., cyclopropyl,
cyclobutyl, cyclopentyl or cyclohexyl). In a particular embodiment of the compound of
formula I, R is cyclohexyl.
In one embodiment of the compound of formula (I), R is -OH, C -C
alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C
2 8 2 8 1 8 2 8 2 8
haloalkynyl. In other particular embodiments of the compound of formula I, R is -OH.
In one embodiment of the compound of formula (I), R is -CH OH, C -
C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C
8 2 8 2 8 1 8 2 8 2 8
haloalkynyl. In yet another specific embodiment of the compound of formula I, R is
-CH OH, C -C alkyl, or C -C haloalkyl. In more particular embodiments, R is
2 1 8 1 8
-CH OH or –CH . In another specific embodiment, R is C -C haloalkyl. In a more
2 3 1 3
specific embodiment, R is –CH F, -CHF or –CF . In another specific embodiment,
2 2 3
R is -CH OH or –CHF .
In one embodiment of the compound of formula (I), R is C -C alkyl,
C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl.
2 8 2 8 1 8 2 8 2 8
In another particular embodiment of the compound of formula I, R is C -C alkyl or
C -C haloalkyl. In more particular embodiments, R is C -C alkyl or C -C haloalkyl.
1 8 1 3 1 3
In a more particular embodiment, R is methyl (-CH ), -CH2F, -CHF or
trifluoromethyl (-CF ). In another particular embodiment, R is methyl or
trifluoromethyl (-CF ).
In a particular embodiment of the compound of formula I, at least one or
1 3 6 7 8
at least two of R , R , R , R and R is C -C haloalkyl. In other certain embodiments,
3 6 7 8
at least one of R , R , R and R is C -C haloalkyl. In other particular embodiments,
R is a linker (L)-non-glycomimetic moiety (M); in still other particular embodiments,
2 1 3 6 7
R is a linker (L)-non-glycomimetic moiety (M) and at least one of R , R , R , R and
8 1 3 6 7 8
R is C -C haloalkyl. When two or more of R , R , R , R and R are C -C haloalkyl,
1 8 1 8
the haloalkyls are independently selected, i.e., may be the same or different or both (if
at least three present). Oral bioavailability of a compound may be improved and/or the
1 3 6 7 8
half-life of the compound increased when at least one or more of R , R , R , R and R
is C -C haloalkyl and when R comprises a non-glycomimetic moiety (M) or linker
(L)-non-glycomimetic moiety (-L-M).
In another embodiment of the compound of formula (I) provided herein,
R is cyclohexyl and R is –OH and the compound has the following formula (Ia):
or a pharmaceutically acceptable salt (i.e., physiologically suitable salt), isomer,
tautomer, hydrate or solvate thereof,
wherein R is C -C alkyl or C -C haloalkyl;
1 8 1 8
R is H, a non-glycomimetic moiety or a linker-non-glycomimetic
moiety, wherein the non-glycomimetic moiety is selected from polyethylene glycol,
thiazolyl, chromenyl,C -C alkyl, -C(=O)NH(CH ) NH and -C(=O)OY where Y is
1 8 2 1-4 2
C -C alkyl;
R is C -C alkyl, C -C haloalkyl, or cyclopropyl;
1 8 1 8
4 1 2 1 2
R is -OH or -NZ Z where Z and Z are each independently H or C -C
alkyl;
R is -CH OH, C -C alkyl, C -C haloalkyl, and
2 1 8 1 8
R is C -C alkyl or C -C haloalkyl.
1 8 1 8
In certain embodiments, halo is F. In other particular embodiments, R
is -CH , -CH CH , -CH F, -CHF , -CF , -CH CH F, -CH CHF , or –CH CF . In other
3 2 3 2 2 3 2 2 2 2 2 3
embodiments, R is –CH , -CH F, -CHF , or -CF . In yet another particular
3 2 2 3
embodiment, R is –OH or -N(CH ) . In certain embodiments, R is -CH OH, –CH ,
3 2 2 3
-CH F, -CHF , or -CF . In still another specific embodiment, R is –CH , -CH F,
2 2 3 3 2
-CHF , or -CF .
In certain particular embodiments, exemplary compounds of formula (I)
1 3 4
are provided, wherein R is ethyl, CF , or –CHF ; R is methyl or -CF ; R is -OH, or
3 2 3
6 7 8
-N(CH ) ; R is cyclohexyl; R is –OH; R is –CH -OH, -CHF , or CF ; R is methyl, -
3 2 2 2 3
CF , or –CHF ; and R is H, or a non-glycomimetic moiety or linker-non-glycomimetic
moiety as described above for a compound of formula I. Examples described herein
have one of the following structural formulae.
; or
In certain particular embodiments, R is H, -C(=O)NH(CH ) NH , or
2 2 2
-C(=O)OCH (also depicted as –COOCH ) and exemplary compounds have one of the
following formulae.
(compound 31);
(compound 32);
(compound 33);
(compound 40);
(compound 41);
(compound 36);
(compound 42);
(compound 27)
or
(compound 43).
Also provided herein is the following compound of formula (I):
(compound 22).
In a particular embodiment of the compound of formula I and formula
Ia, R is a non-glycomimetic moiety that is a polyethylene glycol (PEG). PEG is a
polymer of repeating ethylene oxide units. Length and thus molecular weight vary
depending upon how many of repeating units are present. The ethylene oxide units are
abbreviated herein as ( ) where n is an integer or a general range of integers
from 1 to 100, and any smaller range within the general range. For example the range
of integers for n may be 1 to 25, 1 to 50, 2 to 15, 2 to 20, 2 to 25, 2 to 40, 2 to 50, 2 to
100, 5 to 20, 5 to 40, 5 to 100, as well as all the other numerical combinations. In
particular embodiments, n is 4, 8, 12, 16, 20, 24, or 28.
In a particular embodiment, PEG is the non-glycomimetic moiety (M)
and the linker (L) is -C(=O)NH(CH ) NHC(=O)- to provide one of the following
compounds:
wherein n is 1 to 100. In particular embodiments, n is 4, 8, 12, 16, 20, 24, or 28.
In two particular embodiments with PEG as R , the compound of
formula I has one of the following formulae:
(compound 26);
(compound 25);
(compound 44);
(compound 45).
In a particular embodiment, R is a linker-non-glycomimetic moiety, and
the non-glycomimetic moiety is thiazolyl or chromenyl, for example, 4-methylthiazolyl
or 7-hydroxy-2H-chromenon-yl and the compound of formula (I) has one of the
following formulae:
(compound 28)
(compound 29).
Compounds of formula I include all isomers, physiologically acceptable
salts (i.e., pharmaceutically acceptable salts), hydrates, solvates, polymorphs,
metabolites and prodrugs of any. Examples of isomers are stereoisomers (e.g.,
enantiomers and racemates) and tautomers.
Also provided herein are pharmaceutical compositions that comprise one
or more of the compounds of formula (I), substructures and specific structures thereof,
and a pharmaceutically acceptable excipient. A compound of formula (I) or a
pharmaceutical composition comprising the compound may be used in methods
described herein for treating or preventing a disease, disorder, or condition that is
treatable by inhibiting (i.e., blocking, reducing, preventing) the interaction between E-
selectin and a ligand of E-selectin. Such diseases and disorders include an
inflammatory response and related inflammation, cancer, undesired migration or
movement of a cell through the vasculature (e.g., metastasis of a tumor cell), and
thrombosis, for example.
The glycomimetic compounds of formula (I) may be used for treating
any one or more of the diseases or conditions described herein or for the preparation or
manufacture of a medicament for use in treating any one or more of the diseases or
conditions described herein. Each of these methods and uses are described in greater
detail herein.
Definitions
The terms below, as used herein, have the following meanings, unless
indicated otherwise. Certain chemical groups named herein are preceded by a
shorthand notation indicating the total number of carbon atoms that are to be found in
the indicated chemical group.
As used herein, a “C –C alkyl” or “C –C alkyl” refers to an alkane
1 8 1 4
substituent with one to eight carbon atoms or one to four carbon atoms, respectively,
and may be straight chain, branched, or cyclic (e.g., cycloalkanyl). The term “alkanyl”
may also be used herein and has the same meaning as alkyl. Examples include methyl
(“Me”), ethyl, propyl, isopropyl, butyl and t–butyl. A “C –C halo alkyl” refers to a
C –C alkanyl substituted with at least one halogen (halo). When more than one
halogen is present, the halogens present may be the same or different or both (if at least
three present). A “C –C alkenyl” or “C –C alkenyl” refers to an alkene substituent
2 8 2 4
with two to eight carbon atoms or two to four carbon atoms, respectively,, at least one
carbon–carbon double bond, and may be straight chain, branched or cyclic
(cycloalkenyl). Examples are similar to “C –C alkyl” and “C –C alkyl” examples
1 8 1 8
except the alkenyl has at least one carbon–carbon double bond. A “C –C haloalkenyl”
refers to a C –C alkenyl substituted with at least one halogen (halo). When more than
one halogen is present, the halogens present may be the same or different or both (if at
least three present). A “C –C alkynyl” or “C –C alkynyl” refers to an alkyne
2 8 2 4
substituent with two to eight carbon atoms or two to four carbon atoms, respectively, at
least one carbon–carbon triple bond, and may be straight chain, branched, or cyclic
(e.g., cycloalkynyl). Examples are similar to “C –C alkyl” and “C –C alkyl”
1 8 1 8
examples except the alkanyl has at least one carbon–carbon triple bond. A “C –C
haloalkynyl” refers to a “C –C alkynyl” substituted with at least one halogen (halo).
When more than one halogen is present, the halogens present may be the same or
different or both (if at least three present).
A non-glycomimetic moiety (M) is a moiety that confers one or more
advantageous properties on the compound that enhance the compound’s efficacy and
use in vivo. Examples of such a property include increased water solubility, decreased
immunogenicity, improved stability, and improved pharmacokinetic profile. An
improved pharmacokinetic profile includes increased serum half-life, reduced clearance
and such that improve the therapeutic index.
“Halo” (or “halogen” or “halide”) is fluoro (F), chloro (Cl), bromo (Br),
or iodo (I) radical.
“Aryl” refers to a radical derived from a hydrocarbon ring system
comprising hydrogen, 6 to 30 carbon atoms and at least one aromatic ring. The aryl
radical may be a monocyclic, bicyclic, tricyclic or tetracyclic ring system, which may
include fused or bridged ring systems. Aryl radicals include, but are not limited to, aryl
radicals derived from the hydrocarbon ring systems of aceanthrylene, acenaphthylene,
acephenanthrylene, anthracene, azulene, benzene, chrysene, fluoranthene, fluorene, as-
indacene, s-indacene, indane, indene, naphthalene, phenalene, phenanthrene, pleiadene,
pyrene, and triphenylene. Unless stated otherwise specifically in the specification, the
term “aryl” or the prefix “ar-“ (such as in “aralkyl”) is meant to include aryl radicals
that are optionally substituted.
“Aralkyl” refers to a radical of the formula -R -R where R is an
b c b
alkylene chain as defined above and R is one or more aryl radicals as defined above,
for example, benzyl, diphenylmethyl, trityl and the like. Unless stated otherwise
specifically in the specification, an aralkyl group may be optionally substituted.
“Heterocyclyl”, “heterocycle” or “heterocyclic ring” refers to a stable 3-
to 24-membered non-aromatic ring radical comprising 2 to 23 carbon atoms and from
one to 8 heteroatoms selected from the group consisting of nitrogen, oxygen, and sulfur.
In certain embodiments, the heterocyclyl radical is a 5-10 membered heterocycle that
comprises 3-9 carbon atoms and from 1-3 heteroatoms. Unless stated otherwise
specifically in the specification, the heterocyclyl radical may be a monocyclic, bicyclic,
tricyclic or tetracyclic ring system, which may include fused or bridged ring systems;
nitrogen, carbon or sulfur atom(s) in the heterocyclyl radical may be optionally
oxidized; the nitrogen atom may be optionally quaternized; and the heterocyclyl radical
may be partially or fully saturated. Examples of such heterocyclyl radicals include, but
are not limited to, dioxolanyl, thienyl[1,3]dithianyl, decahydroisoquinolyl,
imidazolinyl, imidazolidinyl, isothiazolidinyl, isoxazolidinyl, morpholinyl,
octahydroindolyl, octahydroisoindolyl, 2-oxopiperazinyl, 2-oxopiperidinyl,
2-oxopyrrolidinyl, oxazolidinyl, piperidinyl, piperazinyl, 4-piperidonyl, pyrrolidinyl,
pyrazolidinyl, quinuclidinyl, thiazolidinyl, tetrahydrofuryl, trithianyl,
tetrahydropyranyl, thiomorpholinyl, thiamorpholinyl, 1-oxo-thiomorpholinyl,
1,1-dioxo-thiomorpholinyl, 12-crown-4, 15-crown-5, 18-crown-6, 21-crown-7, aza
crown-6, diazacrown-6, azacrown-7, and diazacrown-7. Unless stated
otherwise specifically in the specification, a heterocyclyl group may be optionally
substituted.
“Heterocyclylalkyl” refers to a radical of the formula -R -R where R is
b c b
an alkylene chain as defined above and R is one or more heterocyclyl radicals as
defined above, for example, tetrahydrofuranyl-methyl, tetrahydropyranyl-methyl and
the like. A 6-membered heterocyclylalkyl refers to a heterocyclylalkyl, wherein the
heterocyclyl moiety has 6 atoms in the ring. Unless stated otherwise specifically in the
specification, a heterocyclalkyl group may be optionally substituted.
“Heteroaryl” refers to a 5- to 14-membered ring system radical
comprising hydrogen atoms, one to thirteen carbon atoms, one to six heteroatoms
selected from the group consisting of nitrogen, oxygen, and sulfur, and at least one
aromatic ring. In certain embodiments, the heteroaryl radical is a 5-10 membered
heteroaryl that comprises 3-9 carbon atoms and from 1-3 heteroatoms. For purposes of
this invention, the heteroaryl radical may be a monocyclic, bicyclic, tricyclic or
tetracyclic ring system, which may include fused or bridged ring systems; and the
nitrogen, carbon or sulfur atoms in the heteroaryl radical may be optionally oxidized;
the nitrogen atom may be optionally quaternized. Examples include, but are not limited
to, azepinyl, acridinyl, benzimidazolyl, benzothiazolyl, benzindolyl, benzodioxolyl,
benzofuranyl, benzooxazolyl, benzothiazolyl, benzothiadiazolyl,
benzo[b][1,4]dioxepinyl, 1,4-benzodioxanyl, benzonaphthofuranyl, benzoxazolyl,
benzodioxolyl, benzodioxinyl, benzopyranyl, benzopyranonyl, benzofuranyl,
benzofuranonyl, benzothienyl (benzothiophenyl), benzotriazolyl,
benzo[4,6]imidazo[1,2-a]pyridinyl, carbazolyl, cinnolinyl, dibenzofuranyl,
dibenzothiophenyl, furanyl, furanonyl, isothiazolyl, imidazolyl, indazolyl, indolyl,
indazolyl, isoindolyl, indolinyl, isoindolinyl, isoquinolyl, indolizinyl, isoxazolyl,
naphthyridinyl, oxadiazolyl, 2-oxoazepinyl, oxazolyl, oxiranyl, 1-oxidopyridinyl,
1-oxidopyrimidinyl, 1-oxidopyrazinyl, 1-oxidopyridazinyl, 1-phenyl-1H-pyrrolyl,
phenazinyl, phenothiazinyl, phenoxazinyl, phthalazinyl, pteridinyl, purinyl, pyrrolyl,
pyrazolyl, pyridinyl, pyrazinyl, pyrimidinyl, pyridazinyl, quinazolinyl, quinoxalinyl,
quinolinyl, quinuclidinyl, isoquinolinyl, tetrahydroquinolinyl, thiazolyl, thiadiazolyl,
triazolyl, tetrazolyl, triazinyl, and thiophenyl (i.e., thienyl). Unless stated otherwise
specifically in the specification, a heteroaryl group may be optionally substituted.
“Heteroarylalkyl” refers to a radical of the formula -R -R where R is an
b c b
alkylene chain as defined above and R is one or more heteroaryl radicals as defined
above, for example, furanyl-methyl, pyridyl-methyl and the like. A 6-membered
heteroarylalkyl refers to a heteroarylalkyl, wherein the heteroaryl moiety has 6 atoms in
the ring. Unless stated otherwise specifically in the specification, a heteroarylalkyl
group may be optionally substituted.
The compounds described herein may generally be used as the free acid
or free base. Alternatively, the compounds may be used in the form of acid or base
addition salts. Acid addition salts of the free base amino compounds may be prepared
according to methods well known in the art, and may be formed from organic and
inorganic acids. Suitable organic acids include (but are not limited to) maleic, fumaric,
benzoic, ascorbic, succinic, methanesulfonic, acetic, oxalic, propionic, tartaric,
salicylic, citric, gluconic, lactic, mandelic, cinnamic, aspartic, stearic, palmitic, glycolic,
glutamic, and benzenesulfonic acids. Suitable inorganic acids include (but are not
limited to) hydrochloric, hydrobromic, sulfuric, phosphoric, and nitric acids. Base
addition salts of the free acid compounds of the compounds described herein may also
be prepared by methods well known in the art, and may be formed from organic and
inorganic bases. Suitable inorganic bases included (but are not limited to) the
hydroxide or other salt of sodium, potassium, lithium, ammonium, calcium,
magnesium, iron, zinc, copper, manganese, aluminum, and the like, and organic bases
such as substituted ammonium salts. Thus, the term “pharmaceutically acceptable salt”
(or physiologically suitable salt) of compounds of formula I and substructures thereof,
as well as any and all substructures and specific compounds described herein is
intended to encompass any and all pharmaceutically suitable salt forms.
Compounds of formula I and substructures thereof and specific
structures may sometimes be depicted as an anionic species. One of ordinary skill in
the art will recognize that the compounds exist with an equimolar ratio of cation. For
instance, the compounds described herein can exist in the fully protonated form, or in
the form of a salt such as sodium, potassium, ammonium or in combination with any
inorganic base as described above. When more than one anionic species is depicted,
each anionic species may independently exist as either the protonated species or as the
salt species. In some specific embodiments, the compounds described herein exist as
the sodium salt.
Furthermore, some of the crystalline forms of any compound described
herein may exist as polymorphs, which are also included and contemplated by the
present disclosure. In addition, some of the compounds may form solvates with water
or other solvents. Such solvates are similarly included within the scope of compounds
and compositions described herein.
With regard to stereoisomers, the compounds of formula I as well as any
substructure or specific structure described herein, may have one or more chiral (or
asymmetric) centers, and may thus give rise to enantiomers, diastereomers, and other
stereoisomeric forms that may be defined, in terms of absolute stereochemistry, as (R)-
or (S)-. When the compounds described herein contain olefinic double bonds or other
centers of geometric asymmetry, and unless specified otherwise, it is intended that the
compounds include both E and Z geometric isomers (e.g., cis or trans). Likewise,
unless otherwise specified, all possible isomers, as well as their racemic and optically
pure forms, and all tautomeric forms are also intended to be included. It is therefore
contemplated that various stereoisomers and mixtures thereof include “enantiomers,”
which refers to two stereoisomers whose molecules are nonsuperimposeable mirror
images of one another. Thus, the compounds may occur in any isomeric form,
including racemates, racemic mixtures, and as individual enantiomers or diastereomers.
A tautomer refers to a proton shift from one atom of a molecule to another atom of the
same molecule.
“Prodrug” is meant to indicate a compound that may be converted under
physiological conditions or by solvolysis to a biologically active compound described
herein. Thus, the term “prodrug” refers to a metabolic precursor of a compound
described herein that is pharmaceutically acceptable. A prodrug may be inactive when
administered to a subject in need thereof, but is converted in vivo to an active
compound as described herein. Prodrugs are typically rapidly transformed in vivo to
yield the parent compound described herein, for example, by hydrolysis in blood. The
prodrug compound often offers advantages of solubility, tissue compatibility or delayed
release in a mammalian organism (see, e.g., Bundgard, H., Design of Prodrugs (1985),
pp. 7-9, 21-24 (Elsevier, Amsterdam). A discussion of prodrugs is provided in Higuchi,
T., et al., “Pro-drugs as Novel Delivery Systems,” A.C.S. Symposium Series, Vol. 14,
and in Bioreversible Carriers in Drug Design, ed. Edward B. Roche, American
Pharmaceutical Association and Pergamon Press, 1987, both of which are incorporated
in full by reference herein.
The term “prodrug” is also meant to include any covalently bonded
carriers which release the active compound as described herein in vivo when such
prodrug is administered to a mammalian subject. Prodrugs of a compound described
herein may be prepared by modifying functional groups present in the compound
described herein in such a way that the modifications are cleaved, either in routine
manipulation or in vivo, to the parent compound described herein. Prodrugs include
compounds described herein wherein a hydroxy, amino or mercapto group is bonded to
any group that, when the prodrug of the compound is administered to a mammalian
subject, cleaves to form a free hydroxy, free amino or free mercapto group,
respectively. Examples of prodrugs include, but are not limited to, ester and amide
derivatives of hydroxy, carboxy, mercapto or amino functional groups in the
compounds described herein and the like.
Compound Synthesis Procedures
Synthesis of the compounds of formula I (and substructures, and specific
compounds) may be performed as described herein, including the Examples, using
techniques familiar to a person skilled in the art. Synthetic methods for preparing
exemplary compounds described herein are described in Example 1. The methods may
be used for synthesis of the compounds of formula I by using appropriate reactants for
preparation of the specific compound using the techniques and methods described
herein, and that are routinely practiced in the art. By way of further example, Figures 1
and 2 provide schematics of synthesis schemes for exemplary compounds described
herein.
In general, compounds of formula (I) can be prepared according to the
following General Reaction Scheme I:
General Reaction Scheme 1
Referring to General Reaction Scheme 1, compounds of structure A,
wherein R and R are as defined for formula (I), or are moieties which can be
1 2 1
synthetically converted to R or R , and P is a suitable protecting group, can be
purchased from commercial sources or prepared according to methods known in the art.
Similarly, compounds of structure B, wherein R is as defined for formula (I), or is a
moiety which can be synthetically converted to R , and P is a suitable protecting group,
can be purchased from commercial sources or prepared according to methods known in
the art. Reaction of A with B, under appropriate conditions (e.g., bromine followed by
tetraethylamonium bromide) and subsequent selective removal of P yields compounds
of structure C.
In a parallel scheme, compound D, wherein P is a suitable protecting
group and P is suitable protecting group or a moiety which can be synthetically
manipulated to obtain R (as defined for formula (I)), can be purchased or prepared
according to known techniques. Reaction of D with a suitable activating agent (e.g.,
Cl CCN) yields activated compound E. Other suitable means for activating compounds
of structure D are known to those of ordinary skill in the art. Coupling of C and E
under appropriate conditions yields compounds of structure F.
Selective removal of P , followed by selective protection yields
compounds of structure G, wherein P is suitable protecting group. Reaction of G with
H, wherein P is suitable protecting group or a moiety which can be synthetically
manipulated to obtain R (as defined for formula (I)), R is as defined for formula (I)
and LG is a suitably activated leaving group (e.g., triflate and the like), and deprotection
yields exemplary compounds of formula (I).
It will be appreciated that further synthetic manipulation may be desired
to obtain certain compounds of formula (I). For example, in certain embodiments, P
may be an allyloxy group which can be transformed to obtain an alkyl amide (e.g.,
methyl). In other examples, R in the above scheme may be an alkenyl moiety, and the
synthetic scheme includes reduction of the alkene to an alkyl group. Various other
modifications to the above General Reaction Scheme I, such as varying the starting(s)
material or modifying any of the reaction products to include other non-hydroxyl
moieties at R and/or R are possible. Methods for these and other modifications to the
above exemplary scheme are well known in the art and described in more detailed in
the Examples.
It will also be appreciated by those skilled in the art that in the processes
described herein the functional groups of intermediate compounds may need to be
protected by suitable protecting groups, even if not specifically described. Such
functional groups include hydroxy, amino, mercapto and carboxylic acid. Suitable
protecting groups for hydroxy include trialkylsilyl or diarylalkylsilyl (for example, t-
butyldimethylsilyl, t-butyldiphenylsilyl or trimethylsilyl), tetrahydropyranyl, benzyl,
and the like. Suitable protecting groups for amino, amidino and guanidino include t-
butoxycarbonyl, benzyloxycarbonyl, and the like. Suitable protecting groups for
mercapto include -C(O)-R” (where R” is alkyl, aryl or arylalkyl), p-methoxybenzyl,
trityl and the like. Suitable protecting groups for carboxylic acid include alkyl, aryl or
arylalkyl esters. Protecting groups may be added or removed in accordance with
standard techniques, which are known to one skilled in the art and as described herein.
The use of protecting groups is described in detail in Green, T.W. and P.G.M. Wutz,
Protective Groups in Organic Synthesis (1999), 3rd Ed., Wiley. As one of skill in the
art would appreciate, the protecting group may also be a polymer resin such as a Wang
resin, Rink resin or a 2-chlorotrityl-chloride resin.
Analogous reactants to those described above may be identified through
the indices of known chemicals prepared by the Chemical Abstract Service of the
American Chemical Society, which are available in most public and university libraries,
as well as through on-line databases (the American Chemical Society, Washington,
D.C., may be contacted for more details). Chemicals that are known but not
commercially available in catalogs may be prepared by custom chemical synthesis
houses, where many of the standard chemical supply houses (e.g., those listed above)
provide custom synthesis services. A reference for the preparation and selection of
pharmaceutical salts of the present disclosure is P. H. Stahl & C. G. Wermuth
“Handbook of Pharmaceutical Salts,” Verlag Helvetica Chimica Acta, Zurich, 2002.
In general, the compounds used in the reactions described herein may be
made according to General Reaction Scheme I, Examples 1 and 2, Figures 1 and 2
and/or organic synthesis techniques known to those of ordinary skill in this art, starting
from commercially available chemicals and/or from compounds described in the
chemical literature. “Commercially available chemicals” may be obtained from standard
commercial sources including Acros Organics (Pittsburgh PA), Aldrich Chemical
(Milwaukee WI, including Sigma Chemical and Fluka), Apin Chemicals Ltd. (Milton
Park UK), Avocado Research (Lancashire U.K.), BDH Inc. (Toronto, Canada), Bionet
(Cornwall, U.K.), Chemservice Inc. (West Chester PA), Crescent Chemical Co.
(Hauppauge NY), Eastman Organic Chemicals, Eastman Kodak Company (Rochester
NY), Fisher Scientific Co. (Pittsburgh PA), Fisons Chemicals (Leicestershire UK),
Frontier Scientific (Logan UT), ICN Biomedicals, Inc. (Costa Mesa CA), Key Organics
(Cornwall U.K.), Lancaster Synthesis (Windham NH), Maybridge Chemical Co. Ltd.
(Cornwall U.K.), Parish Chemical Co. (Orem UT), Pfaltz & Bauer, Inc. (Waterbury CN),
Polyorganix (Houston TX), Pierce Chemical Co. (Rockford IL), Riedel de Haen AG
(Hanover, Germany), Spectrum Quality Product, Inc. (New Brunswick, NJ), TCI
America (Portland OR), Trans World Chemicals, Inc. (Rockville MD), and Wako
Chemicals USA, Inc. (Richmond VA).
Methods known to one of ordinary skill in the art may be identified
through various reference books, articles and databases. Suitable reference books and
treatise that detail the synthesis of reactants useful in the preparation of compounds of
the present disclosure, or provide references to articles that describe the preparation,
include for example, “Synthetic Organic Chemistry,” John Wiley & Sons, Inc., New
York; S. R. Sandler et al., “Organic Functional Group Preparations,” 2nd Ed.,
Academic Press, New York, 1983; H. O. House, “Modern Synthetic Reactions”, 2nd
Ed., W. A. Benjamin, Inc. Menlo Park, Calif. 1972; T. L. Gilchrist, “Heterocyclic
Chemistry”, 2nd Ed., John Wiley & Sons, New York, 1992; J. March, “Advanced
Organic Chemistry: Reactions, Mechanisms and Structure,” 4th Ed.,
Wiley-Interscience, New York, 1992. Additional suitable reference books and treatise
that detail the synthesis of reactants useful in the preparation of compounds of the
present disclosure, or provide references to articles that describe the preparation,
include for example, Fuhrhop, J. and Penzlin G. “Organic Synthesis: Concepts,
Methods, Starting Materials”, Second, Revised and Enlarged Edition (1994) John Wiley
& Sons ISBN: 329074-5; Hoffman, R.V. “Organic Chemistry, An Intermediate
Text” (1996) Oxford University Press, ISBN 0509618-5; Larock, R. C.
“Comprehensive Organic Transformations: A Guide to Functional Group Preparations”
2nd Edition (1999) Wiley-VCH, ISBN: 019031-4; March, J. “Advanced Organic
Chemistry: Reactions, Mechanisms, and Structure” 4th Edition (1992) John Wiley &
Sons, ISBN: 060180-2; Otera, J. (editor) “Modern Carbonyl Chemistry” (2000)
Wiley-VCH, ISBN: 329871-1; Patai, S. “Patai’s 1992 Guide to the Chemistry of
Functional Groups” (1992) Interscience ISBN: 093022-9; Quin, L.D. et al. “A
Guide to Organophosphorus Chemistry” (2000) Wiley-Interscience, ISBN: 0
31824-8; Solomons, T. W. G. “Organic Chemistry” 7th Edition (2000) John Wiley &
Sons, ISBN: 019095-0; Stowell, J.C., “Intermediate Organic Chemistry” 2nd
Edition (1993) Wiley-Interscience, ISBN: 057456-2; “Industrial Organic
Chemicals: Starting Materials and Intermediates: An Ullmann’s Encyclopedia” (1999)
John Wiley & Sons, ISBN: 329645-X, in 8 volumes; “Organic Reactions” (1942-
2000) John Wiley & Sons, in over 55 volumes; and “Chemistry of Functional Groups”
John Wiley & Sons, in 73 volumes.
As noted above, in addition to the compounds described herein, other
agents are provided that bind at or near the binding site on E-selectin for the compounds
and compete with the compounds for the inhibition of E-selectin interaction with sLe
or sLe . The other agents include antibodies, polypeptides, peptides and aptamers.
Such agents may be produced by a variety of means that are well known in the art. For
example, the E-selectin protein is used to generate a library of antibodies. The library
of antibodies is screened for one or more antibodies of interest using a compound
disclosed herein, such as compound 22 of Figure 1A. Alternatively, for example, the
portion of E-selectin that binds compound 22 of Figure 1A is identified and used to
generate antibodies of interest (e.g., use of the portion as an immunogen). This portion
of E-selectin may also be used to design and produce polypeptides, peptides and
aptamers that compete with the compounds described herein.
Antibodies and Antigen-Binding Fragments Thereof
Also provided herein are agents, which may be an antibody, polypeptide,
peptide, or aptamer that that are E-selectin antagonists and may be useful for the
methods and uses described herein. Such agents bind to E-selectin at or near the
binding site on E-selectin to which a compound of formula (I) as provided herein binds.
These agents are therefore capable of competing with a compound of formula I to bind
to E-selectin and are capable of blocking (i.e., inhibiting) binding of E-selectin to an E-
selectin ligand.
An agent includes an antibody, or antigen binding fragment thereof, that
specifically binds to E-selectin. As described herein, the epitope to which such an
antibody binds comprises amino acids at or near the binding site on E-selectin to which
a compound as provided herein binds. The epitope to which such an antibody binds
may include one or more amino acids contiguous with the residues to which a
compound as provided herein binds and/or may include one or more amino acid
residues that are non-contiguous but which interact with the compound.
As used herein, an antibody is said to be “immunospecific,” “specific
for” or to “specifically bind” to an antigen of interest if it reacts at a detectable level
with the antigen. Affinities of antibodies and antigen binding fragments thereof can be
readily determined using conventional techniques, for example, those described by
Scatchard et al. (Ann. N.Y. Acad. Sci. USA 51:660 (1949)) and by surface plasmon
resonance (SPR) (see, e.g., Wolff et al., Cancer Res. 53:2560-2565 (1993)). Binding
properties of an antibody to an antigen may generally be determined and assessed using
immunodetection methods including, for example, an enzyme-linked immunosorbent
assay (ELISA), immunoprecipitation, immunoblotting, countercurrent
immunoelectrophoresis, radioimmunoassays, dot blot assays, inhibition or competition
assays, and the like, which may be readily performed by those having ordinary skill in
the art (see, e.g., U.S. Patent Nos. 4,376,110 and 4,486,530; Harlow et al., Antibodies:
A Laboratory Manual, Cold Spring Harbor Laboratory (1988)).
These specific antibodies may be polyclonal or monoclonal, prepared by
immunization of animals and subsequent isolation of the antibody, or cloned from
specific B cells according to methods and techniques routinely practiced in the art and
described herein. A variable region or one or more complementarity determining
regions (CDRs) may be identified and isolated from antigen-binding fragment or
peptide libraries. An antibody, or antigen-binding fragment thereof, may be
recombinantly engineered and/or recombinantly produced.
An antibody may belong to any immunoglobulin class. It may be
obtained from or derived from an animal, for example, fowl (e.g., chicken) and
mammals, which include but are not limited to a mouse, rat, hamster, rabbit, or other
rodent, a cow, horse, sheep, goat, camel, human, or other primate. The antibody may
be an internalising antibody. Antibodies may generally be prepared by any of a variety
of techniques known to persons having ordinary skill in the art and described herein.
See, e.g., Harlow et al., Antibodies: A Laboratory Manual, Cold Spring Harbor
Laboratory (1988); Peterson, ILAR J. 46:314-19 (2005); Kohler and Milstein (Nature,
256:495-97 (1976); Eur. J. Immunol. 6:511-19 (1975); Coligan et al. (eds.), Current
Protocols in Immunology, 1:2.5.1-2.6.7 (John Wiley & Sons 1991)).
Human monoclonal anti-E-selectin antibodies may be generated by any
number of techniques with which those having ordinary skill in the art will be familiar
(see, e.g., U.S. Patent No. 4,464,456; Lonberg et al., Nature 368:856 (1994); U.S.
Patent No. 5,877,397; Bruggemann et al., Curr. Opin. Biotechnol. 8:455-58 (1997);
Jakobovits et al., Ann. N. Y. Acad. Sci. 764:525-35 (1995)); (WO 92/02551; U.S. Patent
No. 5,627,052; Babcook et al., Proc. Natl. Acad. Sci. USA 93:7843-48 (1996); or other
procedures as known in the art). Chimeric antibodies, specific for the portion of E-
selectin of interest, including humanized chimeric antibodies, may also be generated.
See, e.g., Morrison et al., Proc. Natl. Acad. Sci. USA, 81:6851-55 (1984); Shin et al.,
Methods Enzymol. 178:459-76 (1989)). Strategies for designing humanized antibodies
are routinely practiced in the art (see, e.g., Jones et al., Nature 321:522-25 (1986);
Riechmann et al., Nature 332:323-27 (1988); Padlan et al., FASEB 9:133-39 (1995);
Chothia et al., Nature, 342:377-83 (1989); Bajorath et al., Ther. Immunol. 2:95-103
(1995)).
For particular uses, antigen-binding fragments of antibodies may be
desired. Antibody fragments, F(ab') Fab, Fab', Fv, and Fd, can be obtained, for
example, by proteolytic hydrolysis of the antibody (see, e.g., Weir, Handbook of
Experimental Immunology, Blackwell Scientific, Boston (1986)), or may be
synthetically prepared or genetically engineered. Antibody fragments include
recombinant single chain polypeptide molecules in which light and heavy variable
regions are connected by a peptide linker (scFv proteins), and minimal recognition units
(comprises at least one CDR) consisting of the amino acid residues that mimic the
hypervariable region. Methods and techniques for preparing and isolating antibody
fragments are described in the art (see, e.g., Larrick et al., Methods: A Companion to
Methods in Enzymology 2:106, (1991); Courtenay-Luck, in Monoclonal Antibodies:
Production, Engineering and Clinical Application, Ritter et al. (eds.), page 166
(Cambridge University Press 1995); and Ward et al., in Monoclonal Antibodies:
Principles and Applications, Birch et al., (eds.), page 137 (Wiley-Liss, Inc. 1995);
International Patent Application Nos. PCT/US91/08694 and PCT/US91/04666); Scott
et al., Science 249:386 (1990); Devlin et al., Science 249:404 (1990); Cwirla et al.,
Science 276: 1696-99 (1997); U.S. Pat. No. 5,223,409; U.S. Pat. No. 5,733,731; U.S.
Pat. No. 5,498,530; U.S. Pat. No. 5,432,018; U.S. Pat. No. 5,338,665; U.S. Pat. No.
,922,545; International Application Publication Nos. WO 96/40987 and WO
98/15833).
Antibodies may also be identified and isolated from human, rabbit,
mouse or chicken immunoglobulin phage libraries. Antibodies isolated from non-
human species or non-human immunoglobulin libraries may be genetically engineered
to “humanize” the antibody or fragment thereof. See, e.g., Winter et al., Annu. Rev.
Immunol. 12:433-55 (1994); Burton et al., Adv. Immunol. 57:191-280 (1994); U.S.
Patent No. 5,223,409; Huse et al., Science 246:1275-81 (1989); Kang et al., Proc. Natl.
Acad. Sci. USA 88:4363-66 (1991); Hoogenboom et al., J. Molec. Biol. 227:381-388
(1992); U.S. Patent No. 6,703,015).
An agent that is an E-selectin antagonist also includes a peptide-
immunoglobulin (Ig) constant region fusion polypeptide, which includes a peptide-IgFc
fusion polypeptide. The peptide may be any naturally occurring or recombinantly
prepared molecule. A peptide-Ig constant region fusion polypeptide, such as a peptide-
IgFc fusion polypeptide (also referred to in the art as a peptibody (see, e.g., U.S. Patent
No. 6,660,843)), comprises a biologically active peptide or polypeptide capable of
altering the sLe or sLe binding function of E-selectin that is fused in-frame with a
portion, at least one constant region domain (e.g., CH1, CH2, CH3, and/or CH4),.
Antibody related sequences are provided in Kabat et al. (in Sequences of Proteins of
Immunological Interest, 4th ed. (U.S. Dept. of Health and Human Services, U.S.
Government Printing Office, 1991).
Peptides and Peptidomimetics
In certain embodiments, interaction between E-selectin and sLe or sLe
may be inhibited (i.e., inhibited, decreased, disrupted reduced in a biologically or
statistically significant manner) by a peptide or peptidomimetic of the portion of E-
selectin that binds a compound provided herein. The peptide and the peptide moiety of
the peptidomimetic may comprise at least 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16-
, 21-25, 26-30, 31-35, 36-40, 41-45, or 46-50 amino acids. Peptides and
peptidomimetics typically have molecular masses less than 10 daltons, less than 10
daltons, or less than 10 daltons.
Methods of Use
Methods are provided herein for using any one or more of the E-selectin
antagonist agents described above and herein, including glycomimetics of formula (I),
antibodies or antigen-binding fragments thereof, polypeptides, peptides and aptamers
for preventing (i.e., reducing the likelihood of occurrence or recurrence of) and/or
treating a disease or disorder associated with, mediated by, or exacerbated by E-selectin
binding to an E-selectin ligand, which in turn causes an undesired biological activity.
Thus, the E-selectin antagonists described herein may be used in methods for treating a
disease or disorder treatable by inhibiting binding of E-selectin to an E-selectin ligand.
These methods and other embodiments are described in greater detail herein.
In certain embodiments, a compound of formula (I) or a pharmaceutical
composition comprising the compound may be used in methods for treating and
preventing (i.e., decreasing or reducing the likelihood of occurrence of) metastasis of
cancer cells (also called tumor cells herein) in an individual (i.e., subject, patient) who
is in need thereof by administering the compound or composition to the individual. In
other embodiments, a compound of formula (I) or a pharmaceutical composition
comprising the compound may be used in methods for inhibiting (reducing, decreasing,
or preventing (i.e., decreasing the likelihood of occurrence of)) infiltration of cancer
cells into bone marrow in an individual (i.e., subject, patient) who is in need thereof by
administering the compound or composition to the individual. In still another
embodiment, methods are provided herein for inhibiting (reducing, decreasing, or
preventing) adhesion of a cancer cell that expresses a ligand of E-selectin to an
endothelial cell expressing E-selectin on the cell surface of the endothelial cell wherein
the method comprises contacting the endothelial cell and the compound or composition
comprising the compound (i.e., in some manner permitting the compound or
composition comprising the compound to interact with the endothelial cell) such that
when the compound interacts with E-selectin on the endothelial cell, binding of the
cancer cell to the endothelial cell is inhibited. In certain embodiments, the endothelial
cell is present in the bone marrow. In other embodiments, an E-selectin antagonist
agent selected from an antibody or antigen-binding fragment thereof, polypeptide,
peptide and aptamer, which agent is capable of competing with a compound of formula
(I), may be used in the aforementioned methods.
In still another embodiment described herein, a method is providing for
treating a cancer in an individual (i.e., subject, patient) by administering a compound of
formula I or a pharmaceutical composition comprising the compound to the individual.
The compound (or pharmaceutical composition comprising the compound) may be
administered in conjunction with (i.e., as an adjunct therapy, which is also called
adjunctive therapy) with chemotherapy or radiation or both. The chemotherapy or
radiation therapy or combination may be referred to as the primary anti-tumor or anti-
cancer therapy that is being administered to the individual to treat the particular cancer.
In other embodiments, an E-selectin antagonist agent selected from an antibody or
antigen-binding fragment thereof, polypeptide, peptide and aptamer, which agent is
capable of competing with a compound of formula (I), may be used in the
aforementioned methods.
In still another embodiment, a compound of formula I or pharmaceutical
compositions comprising the compound may be used in methods for enhancing
hematopoietic stem cell survival in a subject. In other embodiments, an E-selectin
antagonist agent selected from an antibody or antigen-binding fragment thereof,
polypeptide, peptide and aptamer, which agent is capable of competing with a
compound of formula (I), may be used in the aforementioned methods.
In another embodiment, a compound of formula I or pharmaceutical
compositions comprising the compound may be used in methods for treating or
preventing (i.e., decreasing or reducing the likelihood or risk of occurrence of)
thrombosis in a subject. In certain embodiments, a compound of formula I or
pharmaceutical compositions comprising the compound may be used in methods for
treating or preventing (i.e., decreasing or reducing the risk of occurrence of) thrombus
formation in an individual who is need of such treatment, comprising administering to
the individual a compound having the formula (I) (or the pharmaceutical composition
comprising the compound), or any substructure or specific structure described herein.
In other embodiments, an E-selectin antagonist agent selected from an antibody or
antigen-binding fragment thereof, polypeptide, peptide and aptamer, which agent is
capable of competing with a compound of formula (I), may be used in the
aforementioned methods.
As understood by a person of ordinary skill in the medical art, the terms,
“treat” and “treatment,” refer to medical management of a disease, disorder, or
condition of a subject (i.e., patient, individual) (see, e.g., Stedman’s Medical
Dictionary). In general, an appropriate dose and treatment regimen provide at least one
glycomimetic compound or other agent described herein in an amount sufficient to
provide therapeutic and/or prophylactic benefit. Therapeutic and/or prophylactic
benefit includes, for example, an improved clinical outcome, both therapeutic treatment
and prophylactic or preventative measures, wherein the object is to prevent or slow or
retard (lessen) an undesired physiological change or disorder, or to prevent or slow or
retard (lessen) the expansion or severity of such disorder. As discussed herein,
beneficial or desired clinical results from treating a subject include, but are not limited
to, abatement, lessening, or alleviation of symptoms that result from or are associated
with the disease, condition, or disorder to be treated; decreased occurrence of
symptoms; improved quality of life; longer disease-free status (i.e., decreasing the
likelihood or the propensity that a subject will present symptoms on the basis of which
a diagnosis of a disease is made); diminishment of extent of disease; stabilized (i.e., not
worsening) state of disease; delay or slowing of disease progression; amelioration or
palliation of the disease state; and remission (whether partial or total), whether
detectable or undetectable; and/or overall survival. “Treatment” can also mean
prolonging survival when compared to expected survival if a subject were not receiving
treatment. Subjects in need of treatment include those who already have the disease,
condition, or disorder as well as subjects prone to have or at risk of developing the
disease, condition, or disorder, and those in which the disease, condition, or disorder is
to be prevented (i.e., decreasing the likelihood of occurrence of the disease, disorder, or
condition).
As discussed in detail herein, the disease or disorder to be treated or
prevented (i.e., reduce the likelihood of occurrence or recurrence) is a cancer and
related metastasis and includes cancers that comprise solid tumor(s) and cancers that
comprise liquid tumor(s). As illustrated in Figure 3, E-selectin plays a central role in
the progression of a cancer. The invasive properties of cancer cells depend, at least in
part, on the capability of the cancer cell to breach the endothelial barrier. Cancer cells,
for example, colon cancer cells, may express E-selectin ligands that are capable of
binding to endothelial cells that express E-selectin on their cell surface. Without
wishing to be bound by theory, binding of the cancer cell to the endothelial cell can
contribute to extravasation of the cancer cells (see, e.g., Tremblay et al., Oncogene 25:
6563–6573. doi:10.1038/sj.onc.1209664; published online 22 May 2006).
Cancers that may be prevented from metastasizing includes cancers that
comprise solid tumors and those that comprise liquid tumors (e.g., hematological
malignancies). Examples of solid tumors that may be treated with the agents described
herein (e.g., glycomimetic compounds of formula I) include colorectal cancer, liver
cancer, gastric cancer, lung cancer, brain cancer, kidney cancer, bladder cancer, thyroid
cancer, prostate cancer, ovarian cancer, cervical cancer, uterine cancer, endometrial
cancer, melanoma, breast cancer, and pancreatic cancer. Liquid tumors occur in the
blood, bone marrow, and lymph nodes and include leukemia (e.g., AML, ALL, CLL,
and CML), lymphoma (e.g., non-Hodgkin lymphoma and Hodgkin lymphoma), and
myeloma (e.g., multiple myeloma). Reports have described that liquid tumors such as
multiple myeloma follow a similar invasion – metastasis cascade as observed with solid
tumors and that E-selectin ligands are present on liquid tumor cells, such as myeloma
cells (see, e.g., Ghobrial, Blood 120:20-30 (2012) Epub 2012 Apr 24). Others have
observed that ligands of E-selectin (e.g., CD65) may be important for extravascular
infiltration of leukemia cells (see, e.g., Noguchi et al., Leukemia Res. 25:847-53
(2001)). Liquid tumor cells may also adhere to bone marrow, which may further lead to
sequestration and quiescence of the tumor cells, resulting in “resistance” of the tumor
cells to chemotherapy, which phenomenon is referred to as adhesion mediated drug
resistance. Studies have also indicated that bone marrow contains anatomic regions that
comprise specialized endothelium, which expresses the E-selectin (see, e.g., Sipkins et
al., Nature 435:969-973 (2005)). Accordingly, an E-selectin antagonist, such as those
described herein, may be useful for inhibiting metastasis of cancers that comprise either
a solid or liquid tumor by inhibiting binding of an E-selectin ligand to E-selectin.
In particular embodiments, the compounds of formula (I), including
substructures and specific compounds, and agents described herein may be used for
treating or preventing (i.e., decreasing or reducing the likelihood of occurrence of)
metastasis of cancer cells in an individual (i.e., subject, patient) who is in need thereof.
The compounds and agents described herein may be used for inhibiting or preventing
(i.e., decreasing or reducing the likelihood of occurrence of) infiltration of cancer cells
into bone marrow in an individual who is in need thereof. The individuals (or subjects)
in need of such treatments include subjects who have been diagnosed with a cancer,
either a cancer that comprises solid tumor(s) or a cancer that comprises a liquid tumor.
Without wishing to be bound by theory, by inhibiting tumor cells from metastasizing to
the bone marrow or to other protective niches in the body, the tumor cells are inhibited
from sequestration and protection from exposure to chemotherapy or radiotherapy.
Such cancers include, for example, colorectal cancer, liver cancer,
gastric cancer, lung cancer, brain cancer, kidney cancer, bladder cancer, thyroid cancer,
prostate cancer, ovarian cancer, cervical cancer, uterine cancer, endometrial cancer,
melanoma, breast cancer, and pancreatic cancer. Liquid tumors occur in the blood,
bone marrow, the soft, sponge-like tissue in the center of most bones, and lymph nodes
and include leukemia (e.g., AML, ALL, CLL, and CML), lymphoma, and myeloma
(e.g., multiple myeloma). Lymphomas include Hodgkin lymphoma, which is marked
by the presence of a type of cell called the Reed-Sternberg cell, and non-Hodgkin
lymphomas, which includes a large, diverse group of cancers of immune system cells.
Non-Hodgkin lymphomas can be further divided into cancers that have an indolent
(slow-growing) course and those that have an aggressive (fast-growing) course, and
which subtypes respond to treatment differently.
The compounds of formula I and agents described herein (or the
pharmaceutical composition comprising the compound or agent) may be administered
as an adjunct therapy to chemotherapy or radiotherapy or both, which is being delivered
to the subject as primary therapy for treating the cancer. The chemotherapy and
radiotherapy that may be administered depend upon several factors including the type
of cancer, location of the tumor(s), stage of the cancer, age and gender and general
health status of the subject. A person skilled in the medical art can readily determine
the appropriate chemotherapy regimen or radiotherapy regimen for the subject in need.
The person skilled in the medical art can also determine, with the aid of preclinical and
clinical studies, when the compound of formula (I) or agent should be administered to
the subject, that is whether the compound or agent is administered prior to, concurrent
with, or subsequent to a cycle of the primary chemotherapy or radiation treatment.
Also provided herein is a method for inhibiting adhesion of a tumor cell
that expresses a ligand of E-selectin to an endothelial cell expressing E-selectin on its
cell surface, which method comprises contacting the endothelial cell with the compound
of formula (I) or agent as described herein, thereby permitting the compound to interact
with E-selectin on the endothelial cell surface and inhibiting binding of the tumor cell to
the endothelial cell. Without wishing to be bound by theory, inhibiting adhesion of
tumor cells to endothelial cells may reduce in a significant manner, the capability of the
tumor cells to extravasate into other organs, blood vessels, lymph, or bone marrow and
thereby reduce, decrease, or inhibit, or slow the progression of the cancer, including
reducing, decreasing, inhibiting, or slowing metastasis.
In particular embodiments of the methods described herein, the subject is
a human or non-human animal. A subject in need of the treatments described herein
may exhibit symptoms or sequelae of cancer disease, disorder, or condition described
herein or may be at risk of developing the disease, disorder, or condition. Non-human
animals that may be treated include mammals, for example, non-human primates (e.g.,
monkey, chimpanzee, gorilla, and the like), rodents (e.g., rats, mice, gerbils, hamsters,
ferrets, rabbits), lagomorphs, swine (e.g., pig, miniature pig), equine, canine, feline,
bovine, and other domestic, farm, and zoo animals.
The effectiveness of a compound, agent, or pharmaceutical composition
described herein in treating or preventing a disease or disorder or condition described
herein, and determining and adjusting an appropriate dosing regimen (e.g., adjusting the
amount of compound per dose and/or number of doses and frequency of dosing), can
readily be determined by a person of ordinary skill in the medical and clinical arts. One
or any combination of diagnostic methods, including physical examination, assessment
and monitoring of clinical symptoms, and performance of analytical tests and methods
described herein, may be used for monitoring the health status of the subject.
As described herein, with respect to treating a subject (i.e., an individual)
who has cancer or who is at risk of developing cancer, at least one (i.e., one or more) of
the above described agents (e.g., compounds of formula (I)) may be administered in
combination with at least one (i.e., one or more) additional anti-cancer agent.
Chemotherapy may comprise one or more chemotherapeutic agents. For example,
chemotherapy agents, radiotherapeutic agents, inhibitors of phosphoinositide-3 kinase
(PI3K), and inhibitors of VEGF may be used in combination with an agent described
herein. Examples of inhibitors of PI3K include the compound named by Exelixis as
“XL499.” Examples of VEGF inhibitors include the compound called “cabo”
(previously known as XL184). Many other chemotherapeutics are small organic
molecules. As understood by a person skilled in the art, chemotherapy may also refer
to a combination of two or more chemotherapeutic molecules that are administered
coordinately and which may be referred to as combination chemotherapy. Numerous
chemotherapeutic drugs are used in the oncology art and include, for example,
alkylating agents; antimetabolites; anthracyclines, plant alkaloids; and topoisomerase
inhibitors.
An E-selectin antagonist, such as a glycomimetic compound of formula
(I) may function independent of the anti-cancer agent, or may function in coordination
with the anti-cancer agent, e.g., by enhancing effectiveness of the anti-cancer agent or
vice versa. In one embodiment, methods are provided for treating cancers comprising
administering the E-selectin antagonists described herein (including the glycomimetic
compounds of formula I). The cancer may be a solid tumor or a liquid tumor. In
certain embodiments, the E-selectin antagonist is used in combination with
chemotherapy, radiation, or both chemotherapy and radiation. The E-selectin
antagonist may be administered with one or more cycles (i.e., one, two, three, four, five,
six, or more cycles) of chemotherapy or radiotherapy when multiple cycles of the
chemotherapy or radiotherapy are administered to a subject for the treatment of a
cancer. The E-selectin antagonist may enhance the efficacy of the chemotherapeutic
agent(s) or radiotherapy.
In another embodiment, provided herein are methods for enhancing (i.e.,
enhancing, promoting, improving the likelihood of, enhancing in a statistically or
biologically significant manner) or maintaining survival of hematopoietic stem cells
(HSC) in a subject who is treated with or will be treated with a chemotherapeutic
drug(s) or radioactive therapy, respectively, comprising administering one or more of
the E-selectin antagonist glycomimetic compounds described herein. In certain
embodiments, the subject receives or will receive both chemotherapy and radiation
therapy. Also, provided herein is a method for reducing (i.e., reducing, inhibiting,
diminishing in a statistically or biologically significant manner) chemosensitivity or
radiosensitivity of hematopoietic stem cells (HSC) to the chemotherapeutic drug(s) or
radioactive therapy, respectively, in a subject. Because repeated cycles of
chemotherapy and radiotherapy often diminish the ability of HSCs to recover and
replenish bone marrow, the glycomimetic compounds described herein may be useful
for subjects who will receive more than one cycle, such as at least two, three, four or
more cycles, of chemotherapy or radiotherapy or a combination of both chemotherapy
and radiotherapy. The E-selectin antagonist may therefore be administered with any
one or more of each of the cycles of chemotherapy or radiotherapy (or combination)
administered to the subject. HSCs reside in the bone marrow and generate the cells that
are needed to replenish the immune system and the blood. Anatomically, bone marrow
comprises a vascular niche that is adjacent to bone endothelial sinuses (see, e.g., Kiel et
al., Cell 121:1109-21 (2005); Sugiyama et al., Immunity 25:977-88 (2006); Mendez-
Ferrer et al., Nature 466:829-34 (2010); Butler et al., Cell Stem Cell 6:251-64 (2010)).
A recent study describes that E-selectin promotes HSC proliferation and is an important
component of the vascular niche (see, e.g., Winkler et al., Nature Medicine published
online 21 October 2012; doi:10.1038/nm.2969; see also, e.g., Int’l. Patent Appl. Publ.
No. 2007/028050). Deletion or inhibition of E-selectin enhanced HSC survival in mice
that were treated with chemotherapeutic agents or radiotherapy and accelerated blood
neutrophil recovery (see, e.g., Winkler et al., supra).
An agent described herein (i.e., an E-selectin antagonist, such as a
glycomimetic compound of formula (I)) may function independent of the anti-cancer
agent, or may function in coordination with the anti-cancer agent, e.g., by enhancing
effectiveness of the anti-cancer agent or vice versa. In addition, the administration of
one or more of the E-selectin antagonist agents described herein may be in conjunction
with one or more other therapies, e.g., for reducing toxicities of therapy. For example,
at least one (i.e., one or more) palliative agent to counteract (at least in part) a side
effect of therapy (e.g., anti-cancer therapy) may be administered. Agents (chemical or
biological) that promote recovery, or counteract side effects of administration of
antibiotics or corticosteroids, are examples of such palliative agents. At least one agent
described herein may be administered before, after, or concurrently with administration
of at least one additional anti-cancer agent or at least one palliative agent to reduce a
side effect of therapy. Where administration is concurrent, the combination may be
administered from a single container or two (or more) separate containers.
Cancer cells (also called herein tumor cells) that may be prevented (i.e.,
inhibited, slowed) from metastasizing, may be killed, may be prevented from adhering
to an endothelial cell, or inhibited from infiltrating bone marrow include cells of solid
tumors and liquid tumors (including hematological malignancies). Examples of solid
tumors are described herein and include colorectal cancer, liver cancer, gastric cancer,
lung cancer, brain cancer, kidney cancer, bladder cancer, thyroid cancer, prostate
cancer, ovarian cancer, cervical cancer, uterine cancer, endometrial cancer, melanoma,
breast cancer, and pancreatic cancer. Liquid tumors occur in the blood, bone marrow,
and lymph nodes and include leukemia (e.g., AML, ALL, CLL, and CML), lymphoma
(e.g., Hodgkin lymphoma and non-Hodgkin lymphoma), and myeloma (e.g., multiple
myeloma). As used herein, the term cancer cells include mature, progenitor and cancer
stem cells.
Bones are a common location for cancer to infiltrate once leaving the
primary tumor location. Once cancer resides in bone, it is frequently a cause of pain to
the individual. In addition, if the particular bone affected is a source for production of
blood cells in the bone marrow, the individual may develop a variety of blood cell
related disorders. Breast and prostate cancer are examples of solid tumors that migrate
to bones. Acute myelogenous leukemia (AML) and multiple myeloma (MM) are
examples of liquid tumors that migrate to bones. Cancer cells that migrate to bone will
typically migrate to the endosteal region of the bone marrow. Once cancer cells have
infiltrated into the marrow, the cells become quiescent and are protected from
chemotherapy. The compounds of the present invention block infiltration of
disseminated cancer cells into bone marrow. A variety of individuals may benefit from
treatment with the compounds. Examples of such individuals include individuals with a
cancer type having a propensity to migrate to bone where the tumor is still localized or
the tumor is disseminated but not yet infiltrated bone, or where individuals with such a
cancer type are in remission.
The cancer patient population most likely to respond to treatment using
the agents (e.g., compounds of formula (I)) described herein can be identified based on
the mechanism of action of E-selectin. That is, patients may be selected that express a
highly active E-selectin as determined by the genetic polymorphism for E-selectin of
S128R (Alessandro et al., Int. J. Cancer 121:528-535, 2007). In addition, patients for
treatment by the agents described herein may also selected based on elevated expression
of the E-selectin binding ligands (sialyl Le and sialyl Le ) as determined by antibodies
directed against cancer-associated antigens CA9 (Zheng et al., World J.
Gastroenterol. 7:431-434, 2001) and CD65. In addition, antibodies HECA-452 and
FH-6 which recognize similar carbohydrate ligands of E-selectin may also be used in a
diagnostic assay to select the cancer patient population most likely to respond to this
treatment.
In other embodiments, methods are provided for treating or preventing
(i.e., reducing the likelihood of occurrence) thrombosis in a subject (i.e., individual,
patient) in need thereof. The subject may have a thrombus or may be at risk of
developing a thrombus. An E-selectin antagonist described herein (including a
compound of formula (I)) may inhibit or prevent (i.e., reduce the likelihood of
occurrence of) the formation of a thrombus. The E-selectin antagonist may inhibit slow
or retard formation of a thrombus or decrease the size or integrity of a formed
thrombus. While this method is applicable to individuals in need thereof generally, the
methods are especially advantageous for such individuals who are also at risk for
bleeding. For example, this method is useful and advantageous in a wide variety of
situations in which the risk of bleeding is significant and the use of anti-thrombosis
agents with anti-coagulant properties (such as LMW heparin) is contraindicated. Even
when the use of an anti-thrombosis agent with anti-coagulant properties is not believed
to be contraindicated, this method provides a benefit if bleeding nevertheless occurs.
The E-selectin antagonists used in the method are agents that inhibit the interaction of
a a x x
E-selectin with sialyl Le (sLe ) or sialyl Le (sLe ), but in contrast to agents, such as
heparin, do not significantly delay clotting.
Selectin-mediated activation of leukocytes promotes formation of
procoagulant microparticles rich in tissue factor (see, e.g., Wakefield et al., Thrombosis
Res. 123:S3. 5-40 (2009)). Both E and P-selectins are expressed on the endothelium
after injury or activation of the blood vessel wall. Many reports have focused on the
role of P-selectin in thrombosis, in part due to the availability of inhibitors for P-
selectin (see, e.g., Lopez et al., Hematology Am. Soc. Hematol. Educ. Program 439-56
(2004)); however, several studies conclude E-selectin has a dominant role. Without
wishing to be bound by any particular theory, the formation of VTE is driven by the
inflammatory response, and the selectins function in early events of thrombosis.
Various drugs are currently used for the treatment of thrombosis.
Exemplary drugs include those that suppress platelet aggregation (anti-platelet
therapeutics), for example, aspirin, ticlopidine, eicosapentaenoic acid (EPA),
dipyridamole, and dilazep hydrochloride. An anti-platelet therapeutic such as aspirin
suppresses formation of thrombus at the impaired site of the blood vessel by
suppressing development of blood coagulation triggered by platelet aggregation.
However, because platelets also prevent hemorrhage from the blood vessel, excessive
suppression of the platelet can result in decreased effectiveness of platelets in
preventing hemorrhage.
Anticoagulants used for treatment or prevention of thrombosis act by
suppressing a blood coagulation factor and include warfarin, heparin, low molecular
weight heparin, and argatroban. Anticoagulants are useful in preventing formation of
intravascular fibrin clots, whereas fibrinolytics (e.g., plasminogen activators) are useful
for dissolution of fibrin clots. Uncontrolled bleeding may occur after long-term
administration of large doses of an anticoagulant or fibrinolytic. When heparin is used,
complications include heparin resistance, bleeding, heparin-induced thrombocytopenia,
and osteoporosis.
E-selectin, in particular, plays a dominant role in thrombus formation,
which was determined in animal models and by studying humans who have a genetic
polymorphism (Ser128Arg) of E-selectin. In human studies, a single nucleotide
polymorphism (SNP) S128R (serine to arginine at position 128) in the E-selectin gene
is reported to be overrepresented in patients with atherosclerosis, restenosis, coronary
heart disease, myocardial infarction, and colorectal cancer with poor prognosis (Myers
et al., J. Surg. Res. 108:212-21 (2002)). S128R E-selectin is a genetic variant that is
more active than normal (i.e., wild-type) E-selectin. Cells expressing S128R E-selectin
show greater adhesion and adhere to a wider variety of cell types (Yoshida et al.,
Arterioscler. Thromb. Vasc. Biol. 23:783-88 (2003)). According to publications and a
screen by the Consortium of Functional Glycomics, S128R E-selectin binds to the same
carbohydrates (sialyl Le and sialyl Le ) as the wild type E-selectin, although its
binding activity in other in vitro assays is enhanced and perhaps more promiscuous.
In a study on the effects of S128R E-selectin on venous
thromboembolism (VTE), 585 patients were prospectively observed after the first VTE
for recurrence after discontinuation of treatment (see, e.g., Jilma et al., Arch. Intern.
Med. 166:1655-59 (2006)). Patients with S128R E-selectin showed a significant
increase in developing another thrombus after stopping anticoagulant therapy when
compared to patients with wild type E-selectin.
In an embodiment, the thrombosis is a venous thromboembolism (VTE).
VTE causes deep vein thrombosis and pulmonary embolism. Low molecular weight
(LMW) heparin is the current mainstay therapy for the prevention and treatment of
VTE. There are many circumstances, however, when the use of LMW heparin is
contraindicated. Patients undergoing surgery, patients with thrombocytopenia, patients
with a history of stroke and many cancer patients are just a few examples where the use
of heparin should be avoided due to the risk of bleeding.
As evidenced herein, administration of a compound of formula I
significantly inhibited VTE in an in vivo treatment model of thrombus formation under
continuous blood flow without an increased bleeding risk. Effects of the compound in
this treatment model are comparable to the standard of care using LMW heparin.
However, LMW heparin is a known anti-coagulant and delays clotting over four times
longer than control bleeding times. Also as described herein, the compound of formula
I only slightly delays clotting and is a significant improvement in reducing bleeding
time over LMW heparin. Accordingly, the agents described herein may be useful when
the risk of bleeding is not significant, but also may be useful in a wide variety of
situations when the risk of bleeding is significant, and particularly when use of anti-
thrombosis agents with anti-coagulant properties (such as LMW heparin) is
contraindicated.
At least one (i.e., one or more) of the above described agents (i.e., an E-
selectin antagonist, such as a glycomimetic compound of formula (I)) may be
administered in combination with at least one (i.e., one or more) additional anti-
thrombosis agent. An agent described herein (i.e., an E-selectin antagonist) may
function independent of the anti-thrombosis agent, or may function in coordination with
the anti-thrombosis agent. In addition, the administration of one or more of the agents
described herein may be in conjunction with one or more other therapies, e.g., for
reducing toxicities of therapy. For example, at least one palliative agent to counteract
(at least in part) a side effect of therapy may be administered. Agents (chemical or
biological) that promote recovery, or counteract side effects of administration of
antibiotics or corticosteroids, are examples of such palliative agents. At least one agent
described herein may be administered before, after or concurrently with administration
of at least one additional anti-thrombosis agent or at least one palliative agent to reduce
a side effect of therapy. Where administration is concurrent, the combination may be
administered from a single container or two (or more) separate containers.
A wide variety of individuals are candidates for treatment as described
herein. Thrombus formation may occur in infants, children, teenagers and adults. An
individual may have a hereditary predisposition to thrombosis. Thrombosis may be
initiated, for example, due to a medical condition (such as cancer or pregnancy), a
medical procedure (such as surgery) or an environmental condition (such as prolonged
immobility). Other individuals at risk for thrombus formation include those who have
previously presented with a thrombus.
In particular embodiments of the methods described herein, the subject is
a human or non-human animal. A subject in need of the treatments described herein
may exhibit symptoms or sequelae of thrombosis disease, disorder, or condition
described herein or may be at risk of developing the disease, disorder, or condition.
Non-human animals that may be treated include mammals, for example, non-human
primates (e.g., monkey, chimpanzee, gorilla, and the like), rodents (e.g., rats, mice,
gerbils, hamsters, ferrets, rabbits), lagomorphs, swine (e.g., pig, miniature pig), equine,
canine, feline, bovine, and other domestic, farm, and zoo animals.
The effectiveness of a compound, agent, or pharmaceutical composition
described herein in treating or preventing a disease or disorder or condition described
herein, and determining and adjusting an appropriate dosing regimen (e.g., adjusting the
amount of compound per dose and/or number of doses and frequency of dosing), can
readily be determined by a person of ordinary skill in the medical and clinical arts. One
or any combination of diagnostic methods, including physical examination, assessment
and monitoring of clinical symptoms, and performance of analytical tests and methods
described herein, may be used for monitoring the health status of the subject.
Methods for Characterizing Therapeutic Agents
Characterizing at least one biological activity of a therapeutic agent
described herein may be determined by performing one or more in vitro and in vivo
studies routinely practiced in the art and described herein or in the art. In vitro assays
include without limitation binding assays, immunoassays, competitive binding assays
and cell based activity assays. Animal model studies may also be performed, which are
typically rodent animal studies described in the art or routinely developed or adapted by
a person skilled in the art to characterize an agent, including determining efficacy, in
vivo. Non-human primate animal models may be used in pre-clinical studies that
precede clinical studies; however, these animal models are not typically employed in
the same routine manner as rodent animal studies designed for assessing the
effectiveness or other characteristics of a therapeutic. Persons skilled in the art of
design and execution of animal model studies can also readily determine the appropriate
control groups to include with the studies as well as determine the appropriate statistical
analysis or analyses for evaluating the data.
An inhibition assay may be used to screen for antagonists of E-selectin.
For example, an assay may be performed to characterize the capability of a compound
or other agent described herein to inhibit (i.e., reduce, block, decrease, or prevent in a
statistically or biologically significant manner) interaction of E-selectin with sLe or
sLe . The inhibition assay may be a competitive binding assay, which allows the
determination of IC values. By way of example, the method comprises immobilizing
E-selectin/Ig chimera onto a matrix (e.g., a multi-well plate, which are typically made
from a polymer, such as polystyrene; a test tube, and the like); adding a composition to
reduce nonspecific binding (e.g., a composition comprising non-fat dried milk or bovine
serum albumin or other blocking buffer routinely used by a person skilled in the art);
contacting the immobilized E-selectin with the candidate agent in the presence of sLe
comprising a reporter group under conditions and for a time sufficient to permit sLe to
bind to the immobilized E-selectin; washing the immobilized E-selectin; and detecting
the amount of sLe bound to immobilized E-selectin. Variations of such steps can be
readily and routinely accomplished by a person of ordinary skill in the art.
A person skilled in the art is also familiar with assays and animal models
to assess whether an E-selectin antagonist is free of significant anti-coagulation
properties. For example, an assay that determines the time required to form a clot may
be used to screen for or characterize the capability of an E-selectin antagonist to
significantly delay clotting, wherein an agent that exhibits reduced, absent, or lack of
capability to delay clotting is desired . By way of example, bleeding times may be
evaluated in rodents that are injected with a test E-selectin antagonist or a control, and
bleeding times recorded after a tail vein is nicked and the tail immersed in isotonic
saline.
Conditions for a particular assay include temperature, buffers (including
salts, cations, media), and other components that maintain the integrity of any cell used
in the assay and the compound, which a person of ordinary skill in the art will be
familiar and/or which can be readily determined. A person of ordinary skill in the art
also readily appreciates that appropriate controls can be designed and included when
performing the in vitro methods and in vivo methods described herein.
The source of an agent that is characterized by one or more assays and
techniques described herein and in the art may be a biological sample that is obtained
from a subject who has been treated with the agent. The cells that may be used in the
assay may also be provided in a biological sample. A “biological sample” may include
a sample from a subject, and may be a blood sample (from which serum or plasma may
be prepared), a biopsy specimen, one or more body fluids (e.g., lung lavage, ascites,
mucosal washings, synovial fluid, urine), bone marrow, lymph nodes, tissue explant,
organ culture, or any other tissue or cell preparation from the subject or a biological
source. A biological sample may further refer to a tissue or cell preparation in which
the morphological integrity or physical state has been disrupted, for example, by
dissection, dissociation, solubilization, fractionation, homogenization, biochemical or
chemical extraction, pulverization, lyophilization, sonication, or any other means for
processing a sample derived from a subject or biological source. In certain
embodiments, the subject or biological source may be a human or non-human animal, a
primary cell culture (e.g., immune cells), or culture adapted cell line, including but not
limited to, genetically engineered cell lines that may contain chromosomally integrated
or episomal recombinant nucleic acid sequences, immortalized or immortalizable cell
lines, somatic cell hybrid cell lines, differentiated or differentiatable cell lines,
transformed cell lines, and the like.
Exemplary animal models are described herein and in the art for
determining the effectiveness of an E-selectin antagonist. Numerous cancer animal
models are routinely practiced in the art. By way of non-limiting examples, models of
ALL, multiple myeloma, AML and solid tumor cancer models are available for
determining the effectiveness of an E-selectin antagonist. Typically, animals are
engrafted with a tumor cell line (such as without limitation, a pancreatic, breast, colon,
ovarian, ALL, AML, multiple myeloma tumor cell line) and an agent of interest is
administered prior to engraftment, during tumor growth, and/or after a tumor has been
established. Numerous statistical analyses are available and understood by a person
skilled in the art and may be applied to compare the effect of an agent to one or more
appropriate controls.
Pharmaceutical Compositions and Methods of Using Pharmaceutical Compositions
Also provided herein are pharmaceutical compositions that comprise any
one or more of the E-selectin antagonist agents described herein, such as one or more of
the glycomimetic compounds of formula I (and substructures and specific structures
thereof) described herein. The compounds, isolated antibodies and other E-selectin
antagonists described herein may also be prepared for pharmaceutical use in a subject,
including a human subject. The compounds described herein may be formulated in a
pharmaceutical composition for use in treatment or preventive (or prophylactic)
treatment (e.g., reducing the likelihood of occurrence or of exacerbation of a disease, or
of one or more symptoms of the disease). The methods and excipients described herein
are exemplary and are in no way limiting.
In pharmaceutical dosage forms, any one or more of the glycomimetic
compounds of formula I, substructures and specific structures described herein may be
administered in the form of a pharmaceutically acceptable derivative, such as a salt, or
they may also be used alone or in appropriate association, as well as in combination,
with other pharmaceutically active compounds. By way of example, as described
herein with respect to methods of use, an E-selectin antagonist may be administered to a
subject who is also receiving chemotherapy, radiotherapy, a combination or
chemotherapy and radiotherapy.
An effective amount or therapeutically effective amount refers to an
amount of a glycomimetic compound or a composition comprising one or more
compounds; or one or more isolated antibodies (or other E-selectin antagonist agent)
that when administered to a subject, either as a single dose or as part of a series of
doses, is effective to produce a desired therapeutic effect. Optimal doses may generally
be determined using experimental models and/or clinical trials. Design and execution
of pre-clinical and clinical studies for each of the therapeutics (including when
administered for prophylactic benefit) described herein are well within the skill of a
person of ordinary skill in the relevant art. The optimal dose of a therapeutic may
depend upon the body mass, weight, or blood volume of the subject. In general, the
amount of a compound described herein, that is present in a dose, ranges from about
0.01 μg to about 1000 μg per kg weight of the host. In general, the amount of a
polypeptide or peptide, or an antibody or antigen-binding fragment thereof, as described
herein, present in a dose, also ranges from about 0.01 mg to about 1000 mg per kg of
subject. The use of the minimum dose that is sufficient to provide effective therapy is
usually preferred. Subjects may generally be monitored for therapeutic effectiveness
using assays suitable for the disease or condition being treated or prevented, which
assays will be familiar to those having ordinary skill in the art and are described herein.
The level of a compound or polypeptide that is administered to a subject may be
monitored by determining the level of the compound, peptide, antibody or antigen-
binding fragment thereof, or polypeptide (or a metabolite of any of the aforementioned
molecules) in a biological fluid, for example, in the blood, blood fraction (e.g., serum),
and/or in the urine, and/or other biological sample from the subject. Any method
practiced in the art to detect the molecule may be used to measure the level of the
molecule during the course of a therapeutic regimen.
The dose of a compound, peptide, antibody or antigen-binding fragment
thereof, or polypeptide described herein may depend upon the subject’s condition, that
is, stage of the disease, severity of symptoms caused by the disease, general health
status, as well as age, gender, and weight, and other factors apparent to a person of
ordinary skill in the medical art. Similarly, the dose of the therapeutic for treating a
disease or disorder may be determined according to parameters understood by a person
of ordinary skill in the medical art.
Pharmaceutical compositions may be administered in a manner
appropriate to the disease or disorder to be treated as determined by persons of ordinary
skill in the medical arts. An appropriate dose and a suitable duration and frequency of
administration will be determined by such factors as discussed herein, including the
condition of the patient, the type and severity of the patient’s disease, the particular
form of the active ingredient, and the method of administration. In general, an
appropriate dose (or effective dose) and treatment regimen provides the pharmaceutical
composition(s) as described herein in an amount sufficient to provide therapeutic and/or
prophylactic benefit (for example, an improved clinical outcome, such as more frequent
complete or partial remissions, or longer disease-free and/or overall survival, or a
lessening of symptom severity or other benefit as described in detail above).
The pharmaceutical compositions described herein may be administered
to a subject in need thereof by any one of several routes that effectively deliver an
effective amount of the compound. Such administrative routes include, for example,
topical, oral, nasal, intrathecal, enteral, buccal, sublingual, transdermal, rectal, vaginal,
intraocular, subconjunctival, sublingual or parenteral administration, including
subcutaneous, intravenous, intramuscular, intrasternal, intracavernous, intrameatal or
intraurethral injection or infusion. Compositions administered by these routes of
administration and others are described in greater detail herein.
A pharmaceutical composition may be a sterile aqueous or sterile non-
aqueous solution, suspension or emulsion, which additionally comprises a
physiologically acceptable excipient (pharmaceutically acceptable or suitable excipient
or carrier) (i.e., a non-toxic material that does not interfere with the activity of the active
ingredient). Such compositions may be in the form of a solid, liquid, or gas (aerosol).
Alternatively, compositions described herein may be formulated as a lyophilizate, or
compounds and polypeptides or peptides described herein may be encapsulated within
liposomes using technology known in the art. Pharmaceutical compositions may also
contain other components, which may be biologically active or inactive. Such
components include, but are not limited to, buffers (e.g., neutral buffered saline or
phosphate buffered saline), carbohydrates (e.g., glucose, mannose, sucrose or dextrans),
mannitol, proteins, polypeptides or amino acids such as glycine, antioxidants, chelating
agents such as EDTA or glutathione, stabilizers, dyes, flavoring agents, and suspending
agents and/or preservatives.
Any suitable excipient or carrier known to those of ordinary skill in the
art for use in pharmaceutical compositions may be employed in the compositions
described herein. Excipients for therapeutic use are well known, and are described, for
example, in Remington: The Science and Practice of Pharmacy (Gennaro, 21 Ed.
Mack Pub. Co., Easton, PA (2005)). In general, the type of excipient is selected based
on the mode of administration, as well as the chemical composition of the active
ingredient(s). Pharmaceutical compositions may be formulated for any appropriate
manner of administration, including, for example, topical, oral, nasal, intrathecal,
enteral, buccal, sublingual, transdermal, rectal, vaginal, intraocular, subconjunctival,
sublingual or parenteral administration, including subcutaneous, intravenous,
intramuscular, intrasternal, intracavernous, intrameatal or intraurethral injection or
infusion. For parenteral administration, the carrier preferably comprises water, saline,
alcohol, a fat, a wax or a buffer. For oral administration, any of the above excipients or
a solid excipient or carrier, such as mannitol, lactose, starch, magnesium stearate,
sodium saccharine, talcum, cellulose, kaolin, glycerin, starch dextrins, sodium alginate,
carboxymethylcellulose, ethyl cellulose, glucose, sucrose and/or magnesium carbonate,
may be employed.
A pharmaceutical composition (e.g., for oral administration or delivery
by injection) may be in the form of a liquid. A liquid pharmaceutical composition may
include, for example, one or more of the following: a sterile diluent such as water for
injection, saline solution, preferably physiological saline, Ringer’s solution, isotonic
sodium chloride, fixed oils that may serve as the solvent or suspending medium,
polyethylene glycols, glycerin, propylene glycol or other solvents; antibacterial agents;
antioxidants; chelating agents; buffers and agents for the adjustment of tonicity such as
sodium chloride or dextrose. A parenteral preparation can be enclosed in ampoules,
disposable syringes or multiple dose vials made of glass or plastic. The use of
physiological saline is preferred, and an injectable pharmaceutical composition is
preferably sterile.
For oral formulations, at least one of the E-selectin antagonist agents
described herein can be used alone or in combination with appropriate additives to
make tablets, powders, granules or capsules, for example, with any one or more
conventional additives, disintegrators, lubricants, and if desired, diluents, buffering
agents, moistening agents, preservatives, coloring agents, and flavoring agents. The
compositions may be formulated to include a buffering agent to provide for protection
of the active ingredient from low pH of the gastric environment and/or an enteric
coating. A composition may be formulated for oral delivery with a flavoring agent,
e.g., in a liquid, solid or semi-solid formulation and/or with an enteric coating.
Oral formulations may be provided as gelatin capsules, which may
contain the active compound or biological along with powdered carriers. Similar
carriers and diluents may be used to make compressed tablets. Tablets and capsules can
be manufactured as sustained release products to provide for continuous release of
active ingredients over a period of time. Compressed tablets can be sugar coated or
film coated to mask any unpleasant taste and protect the tablet from the atmosphere, or
enteric coated for selective disintegration in the gastrointestinal tract.
A pharmaceutical composition may be formulated for sustained or slow
release. Such compositions may generally be prepared using well known technology
and administered by, for example, oral, rectal or subcutaneous implantation, or by
implantation at the desired target site. Sustained-release formulations may contain the
active therapeutic dispersed in a carrier matrix and/or contained within a reservoir
surrounded by a rate controlling membrane. Excipients for use within such
formulations are biocompatible, and may also be biodegradable; preferably the
formulation provides a relatively constant level of active component release. The
amount of active therapeutic contained within a sustained release formulation depends
upon the site of implantation, the rate and expected duration of release, and the nature
of the condition to be treated or prevented.
The pharmaceutical compositions described herein can be formulated as
suppositories by mixing with a variety of bases such as emulsifying bases or water-
soluble bases. The pharmaceutical compositions may be prepared as aerosol
formulations to be administered via inhalation. The compositions may be formulated
into pressurized acceptable propellants such as dichlorodifluoromethane, propane,
nitrogen and the like.
Any one or more of the E-selectin antagonist agents described herein
may be administered topically (e.g., by transdermal administration). Topical
formulations may be in the form of a transdermal patch, ointment, paste, lotion, cream,
gel, and the like. Topical formulations may include one or more of a penetrating agent
or enhancer (also call permeation enhancer), thickener, diluent, emulsifier, dispersing
aid, or binder. Physical penetration enhancers include, for example, electrophoretic
techniques such as iontophoresis, use of ultrasound (or “phonophoresis”), and the like.
Chemical penetration enhancers are agents administered either prior to, with, or
immediately following administration of the therapeutic, which increase the
permeability of the skin, particularly the stratum corneum, to provide for enhanced
penetration of the drug through the skin. Additional chemical and physical penetration
enhancers are described in, for example, Transdermal Delivery of Drugs, A. F.
Kydonieus (ED) 1987 CRL Press; Percutaneous Penetration Enhancers, eds. Smith et
al. (CRC Press, 1995); Lenneräs et al., J. Pharm. Pharmacol. 54:499-508 (2002);
Karande et al., Pharm. Res. 19:655-60 (2002); Vaddi et al., Int. J. Pharm. 91:1639-51
(2002); Ventura et al., J. Drug Target 9:379-93 (2001); Shokri et al., Int. J. Pharm.
228(1-2):99-107 (2001); Suzuki et al., Biol. Pharm. Bull. 24:698-700 (2001); Alberti et
al., J. Control Release 71:319-27 (2001); Goldstein et al., Urology 57:301-5 (2001);
Kiijavainen et al., Eur. J. Pharm. Sci. 10:97-102 (2000); and Tenjarla et al., Int. J.
Pharm. 192:147-58 (1999).
Kits with unit doses of one or more of the compounds, polypeptides,
peptides, aptamers, antibodies and antigen binding fragments thereof described herein,
usually in oral or injectable doses, are provided. Such kits may include a container
containing the unit dose, an informational package insert describing the use and
attendant benefits of the therapeutic in treating the pathological condition of interest,
and optionally an appliance or device for delivery of the composition.
EXAMPLES
EXAMPLE 1
SYNTHESIS OF E-SELECTIN INHIBITOR
Exemplary glycomimetic compounds of formula I were synthesized as
described in this Example and as shown in the exemplary synthesis schemes set forth in
Figures 1-2.
Synthesis of compound 2: Compound 1 (60 g) was suspended in H O
(800 ml) and cooled to 0°C. Solid NaHCO (120 g) was added in portion with stirring
and then a solution of KI (474.3 g) and I (127 g) in H O (800 ml) was added with
stirring. Reaction mixture was stirred at room temperature overnight in the dark.
Reaction mixture was then extracted with CH Cl (3 x500 ml). The organic layer was
washed with Na S O solution (2x500 ml) and then the combined aqueous layers were
2 2 3
extracted with CH Cl (2x300 ml). Organic layers (2100 ml) were combined and
washed with cold H O (1x500 ml) and cold brine (1 x 500 ml). The organic layer was
dried over Na SO , filtered, and concentrated to dryness to give compound 2 as light
yellow crystals (119 g). Purity: >95% by TLC.
Synthesis of Compound 3: To a solution of compound 2 (119 g) in THF
(1600 ml) was added DBU (119 ml) with stirring at room temperature and the reaction
mixture was gently refluxed overnight with stirring. Some precipitate forms and TLC
showed no starting material left. The reaction mixture was concentrated to dryness and
dissolved in EtOAc (300 ml), washed with 0.5 M HCl (200 ml) until pH 2-3 of the
aqueous wash, and then the organic layer was further washed with H O (200 ml).
Aqueous layers were combined and extracted with EtOAc (3x200 ml) to produce a
second organic layer. Combined organic layers (900 ml) were washed with brine, dried
(Na SO ), filtered and concentrated to dryness to give compound 3 (58 g). Purity:
>95% by TLC.
Synthesis of Compound 4: To a solution of compound 3 (58 g) in
MeOH (800 ml) was added NaHCO (47 g) with stirring. The reaction mixture was
stirred under gentle reflux for 3h, cooled to room temperature, filtered and concentrated
to dryness. The residue was dissolved in EtOAc (300 ml) and washed with H O.
Aqueous layer was extracted with EtOAc (3x100 ml). Combined organic layers (600
ml) were washed with 0.5M HCl (200 ml), H O (100 ml), and brine (100 ml), dried
(Na SO ), filtered, and concentrated to dryness. The residue was purified by column
chromatography (SiO , Hexanes-EtOAc 3:1→3:2) to give compound 4 (54g). Purity:
>95% by TLC.
Synthesis of compound 5: Compound 4 (31g) was dissolved in tBuOMe
(620 ml) and vinylacetate (166 ml) added with vigorous stirring. Novozyme 435 (1.4 g)
was added and vigorous stirring continued for 5.5 h. The reaction mixture was filtered
and stored at -20°C. After 12-18 hours, another batch of Novozyme 435 resin (1.4 g)
was added and stirred vigorously for 8 h. Resin was filtered and concentrated to
dryness. Oily residue was purified by CombiFlash® system (silica) using 0→50%
EtOAc /Hexanes to give compound 5 (13.0g).
Synthesis of Compound 6: Compound 5 (13.5 g) was dissolved in
CH Cl (300 ml) under argon and TBDMS-Cl (26.4 g) added with stirring at room
temperature under argon. DBU (32.4 ml) was added and stirring continued for
overnight at room temperature under argon. MeOH (30 ml) was added and washed
with cold saturated solution of NaHCO (200 ml), brine (150 ml). The organic layer
was dried (Na2SO4), filtered and concentrated to dryness. The residue was purified by
CombiFlash® system (SiO ) using solvent EtOAc-Hexanes (0-15%) to give compound
6 (18g). Purity >95% by TLC.
Synthesis of Compound 7: Compound 6 (12g) was dissolved in CH Cl
(400 ml) and cooled to 0°C. m-chloroperbenzoic acid (77%, 19 g) was added and the
solution stirred for few hours during which the temperature of the reaction mixture
reached to room temperature. The stirring was continued overnight at room
temperature. CH Cl (300 ml) was added and washed with cold saturated solution of
NaHCO (3x400 ml), brine (cold), dried (Na SO4), filtered, and concentrated to
dryness. The residue was purified by CombiFlash® system (SiO ) using EtOAc-
Hexanes (0→30%) to give 7 (9g). Purity: >95% by TLC.
Synthesis of Compound 8: All operation of this step was done in argon
atmosphere. CuCN (9.42 g) was dried at 160°C under vacuum for 40 min, cooled down
to room temperature and suspended in THF (80 ml). The mixture was cooled down to
-78°C. During this time, tetravinyltin (12 ml) and n-BuLi in hexane (2.5 M, 100 ml)
were reacted for 30 min at 0°C in THF (30 ml). This solution was added to the mixture
of CuCN in THF, and the resulting mixture was stirred for 30 min. at -20°C. The
mixture was then cooled to -78°C and to which was added a solution of freshly distilled
BF .Et2O (6 ml) in THF (20 ml). The mixture was stirred for 20 min. at -78°C.
Compound 7 (5 g) in THF (40 ml) was added and the reaction mixture was stirred at
-78°C for 5 h. MeOH (7 ml) and Et N (3 ml) was added and the mixture was
concentrated to dryness. The residue was dissolved in EtOAc (200 ml) and washed
with saturated solution of NaHCO (2x100 ml), brine (100 ml), dried (Na SO ), filtered,
3 2 4
and concentrated to dryness. The residue was purified by CombiFlash® system (SiO2)
using solvent EtOAc-Hexanes (0→5%) to give compound 8 (2.5 g).
Synthesis of Compound 10: Compound 8 (2.25 g, 7 mmol) was
dissolved in toluene (7 ml) and solvent evaporated off. The process was repeated twice
and finally dried under vacuum for 15 min. The residue was dissolved in anhydrous
CH Cl (45 ml) and DMF (45 ml) was added. The solution was stirred under argon at
room temperature and molecular sieves (3 g, 4¯, powdered and flamed dried) added.
Et NBr (3.3 g, 15.7 mmol, 2.2 equivalents, dried at 200°C for 2h) was added and the
stirring continued for 1h at room temperature under argon.
Compound 9 (5.13 g, 10 mmol, 1.42 equivalents) was co-evaporated
with toluene (3x20 ml), dried under vacuum, and dissolved in CH Cl (45 ml). The
reaction mixture was placed in an ice-bath and stirred for 10 min. To this solution was
added Br (0.8 ml, 15 mmol, 1.5 equivalents) drop-wise with stirring in the ice-bath.
Stirring was continued for 40 min at the same temperature. The ice-bath was removed
and cyclohexene (2.1 ml) added slowly with stirring after 10 min. The reaction mixture
was stirred for 10 min. and added slowly to the reaction mixture above with stirring at
room temperature under argon. Stirring continued for 17 h and then pyridine (4 ml)
was added, filtered and the filtrate concentrated to dryness. The residue was dissolved
in CH Cl (100 ml) and transferred to a separatory funnel. The organic layer was
washed with cold brine (2x75 ml), dried (Na SO ), filtered and concentrated to dryness,
co-evaporated with toluene (3x50 ml), and dried under vacuum. The residue was
dissolved in THF (8 ml) and a solution of TBAF (1 M in THF, 10 ml, 10 mmol, 1.42
equivalents) added with stirring at room temperature. Stirring was continued for 15 h
and solvent evaporated off. The residue was dissolved in CH Cl (100 ml) and
transferred to a separatory funnel, washed with cold brine (2x75 ml), dried (Na SO ),
filtered, and concentrated to dryness. The residue was purified by column
chromatography (Hexanes-Ethyl acetate from 100% hexanes to 70% hexanes in EtOAc)
to give compound 10 (1.6 g, 2.59 mmol, 37% overall in two steps). TLC: 5% EtOAc in
hexanes and 33% EtOAc in hexanes.
Synthesis of Compound 12: Commercially available compound 11 (10
g) was dried overnight under vacuum overnight and added to a solution of NaOMe
(5M, 10 ml) in MeOH (200 ml) with stirring at room temperature under argon. Stirring
was continued for overnight at room temperature argon, and Et N (7 ml) was added
followed by allylchloroformate (3.5 ml) dropwise. Stirring was continued for 6 h at
room temperature under argon. The reaction mixture was concentrated to dryness and
dissolved in pyridine (100 ml). Ac O (50 ml) was added at room temperature under
argon and stirred at room temperature for overnight. The reaction mixture was
concentrated to dryness and purified by column chromatography on CombiFlash®
system using EtOAc-Hexanes (0-100%). The desired fractions were collected and
concentrated to dryness to give Compound 12 (10.2 g).
Synthesis of Compound 13: Compound 12 (7.5 g) was dissolved in
DMF (140 ml) to which was added NH OAC (4.05 g) with stirring. Stirring was
continued for overnight at room temperature under argon. The next day the reaction
mixture was stirred at 50°C under argon for 8 h. The reaction mixture was concentrated
to dryness and the residue dissolved in EtOAc (150 ml), washed with brine (100 ml),
dried (Na SO4), filtered, and concentrated to dryness. The residue was purified by
column chromatography (SiO , Hexanes-EtOAc 2:1 → 1:2) to give Compound 13 (6g).
Synthesis of Compound 14: Compound 13 (6 g) was dissolved in
CH Cl (50 ml) to which was added CCl CN (6 ml) and DBU (0.5 ml). The reaction
2 2 3
mixture was stirred at room temperature for 0.5 h, solvent was evaporated off and the
residue was purified by column chromatography (silica gel) to give Compound 14
(4.5 g).
Synthesis of Compound 15: Compound 10 (2g) and compound 14 (2.1
g) was dissolved in CH Cl (40 ml). To this solution were added molecular sieves (4¯,
0.8 g) and stirred at room temperature for 30 min. The solution was then cooled to 0°C
and BF Et O (0.25 ml dissolved in 5 ml) is added with stirring at 0°C. The reaction
mixture was stirred at 0°C for 2 h. Et N (0.5 ml) was added and the solvent was
evaporated off. The residue was purified by column chromatography (silica gel) to give
Compound 15 (1.8g).
Synthesis of Compound 16: Compound 15 (1.7 g) was treated with
0.01N NaOMe in MeOH (10ml) for 2h and neutralized with IR-120 (H ) resin, filtered,
and concentrated to dryness to give Compound 16 (1.25 g).
Synthesis of Compound 17: To a solution of compound 16 (1.2 g) in
CH CN (30 ml) was added Et3N (0.28 ml) and cooled to 0°C. To this solution was
added BzCN (0.35 mg in 10 ml CH CN) dropwise during 20 min at 0°C. The reaction
mixture was stirred for 1 h at 0°C and concentrated to dryness. The residue was
purified by column chromatography (silica gel) to give compound 17 (0.95 g).
Synthesis of Compound 19: Compound 17 (0.9 g) was dissolved in
MeOH (12 ml). To this solution was added Bu SnO (0.4 g) and the mixture was
refluxed for 2 h. Solvent was evaporated off and the residual solvent was co-
evaporated off with toluene 3 times. The residue was dissolved in dimethoxy ethane
(15 ml). To this solution was added CsF (0.8 g) and compound 18 (2.1 g, synthesized
as described previously, J. Med. Chem. 42:4909, 1999). The reaction mixture was
stirred overnight at room temperature, and the solvent was evaporated off. The residue
was purified by column chromatography to give compound 19 (0.8 g).
Synthesis of Compound 20: Compound 19 (0.7g) was dissolved in
CH Cl (20 ml). To this solution was added Pd(Ph) (0.14 g), Bu SnH (0.15 ml), and
2 2 4 3
Ac O (0.3 ml) and the reaction mixture is stirred at room temperature for 1 h. Solvent
was evaporated off and the residue was purified by column chromatography (silica gel)
to give compound 20 (0.5 g).
Synthesis of Compound 21: To a solution of compound 20 (0.45 g) in
dioxane-H O-AcOH (10:2:1, 2.6 ml) was added 10%Pd-C (0.15 g), and the reaction
mixture was shaken at room temperature under positive pressure (20 psi) of hydrogen
for 5 h. The solid was filtered off, and the filtrate was concentrated to dryness. The
residue was purified by column chromatography (silica gel) to give Compound 21
(0.3 g).
Synthesis of Compound 22: Compound 21 (0.28 g) was treated with
0.025 N NaOMe in MeOH (5 ml) for 4 h, neutralized with IR-120 (H+) resin, filtered,
and the filtrate was concentrated to dryness to give compound 22 (0.21 g).
Synthesis of Compound 23: Compound 22 (0.18 g) was dissolved in
ethylenediamine (2ml) and stirred at 80°C for 8 h. Solvent was evaporated off and the
residue purified using Sep-pak C18 cartridges to give compound 23 (0.15 g).
Synthesis of Compound 25: Compound 23 (200 mg) was dissolved into
1 mL DMF. To this solution was added commercially available compound 24 (400
mg). Triethyl amine (100 μL) was added dropwise to the react reaction mixture to
adjust the pH to 10. The reaction mixture was stirred at room temperature for 1 h.
After evaporation to dryness, the residue was purified by HPLC to afford compound 25
(200 mg). See Figure 1D.
Synthesis of Compound 45: Compound 25 (300 mg) was dissolved into
3 mL DMF. Diisopropylethylamine (60 μL) and HATU (131 mg) were added at room
temperature. After stirring for 5 minutes, dimethylamine (2.3 mL, 2M solution in THF)
was added dropwise. The reaction was stirred at room temperature for 1 hour. The
reaction mixture was concentrated to dryness in vacuo. The residue was dissolved in
water and loaded onto a 10g C-18 cartridge. Elution with water followed by 1/1
water/MeOH afforded compound 45 (100mg). m/z calculated for C H N O =
62 114 4 26
1330.8. Found = 1353.6 (M+Na). H NMR 400MHz (D O, set at 4.80ppm) δ 0.87 (t, J
= 7.6Hz, 3H), 0.94-0.99 (m, 2H), 1.20-1.25 (m, 4H), 1.25 (d, J = 6.4Hz, 3H), 1.26-1.45
(m, 4H), 1.52-1.73 (m, 6H), 1.79-1.88 (m, 3H), 2.00 (s, 3H), 2.11-2.19 (br d, 1H), 2.33
(tt, J = 12.4Hz, J = 3.2Hz, 1H), 2.53 (t, J = 6.4Hz, 2H), 2.95 (s, 3H), 3.06 (s, 3H), 3.28
(t, J = 12.5Hz, 1H), 3.31-3.38 (m, 8H), 3.51-3.54 (m, 2H), 3.61 (dd, J = 8.0Hz, J =
0.8Hz, 1H), 3.63 (dd, J = 8.0Hz, J = 2.0Hz, 1H), 3.70 (s, 44H), 3.73-3.76 (m, 1H), 3.78
(t, J = 6.0Hz, 1H), 3.81-3.82 (m, 1H), 3.88 (dd, J = 8.0Hz, J = 3.6Hz, 1H), 3.99 (bs,
1H), 4.54 (dd, J = 8.8Hz, J = 2.0Hz, 2H), 4.91 (q, J = 6.8Hz, 1H), 5.04 (d, J = 3.6Hz,
1H).
Synthesis of Compound 26: Compound 26 was synthesized as described
for compound 25 (see Figure 1D) except that the PEG reactant had an n of 8 (i.e., 8
repeating PEG units) rather than 12 as for the synthesis of compound 25.
Compound 26:
m/z calculated for C H N O = 1127.6. Found = 1151.6 (M+Na). H NMR 600MHz
52 93 3 23
(D O, set at 4.67ppm) d 0.71(t, J = 7.2Hz, 3H), 0.76 (br quin, J = 12.0Hz, 2H), 0.99-
1.06 (m, 4H), 1.08 (d, J = 6.6Hz, 3H), 1.15-1.19 (br quin, J = 6.6Hz, 1H), 1.21-1.25 (m,
2H), 1.39-1.48 (m, 5H), 1.50-1.60 (m, 3H), 1.70 (br d, J = 10.2Hz, 2H), 1.91 (s, 3H),
1.99 (m, 1H), 2.16 (br t, J = 12.6Hz, 1H), 2.36 (t, J = 6Hz, 2H), 3.11-3.15 (m, 2H), 3.18
( t, J = 9.6Hz, 3H), 3.22 (s, 3H), 3.38 (dd, J = 7.8Hz, J = 4.2Hz, 2H), 3.46 (dd, J =
4.2Hz, 1H), 3.47 (s, 1H), 3.52-3.55 (m 27H), 3.56-3.59 (m, 3H), 3.61-3.64 (m, 3H),
3.65 (d, J = 3.6Hz, 1H), 3.72 (dd, J = 10.2Hz, J = 3.0Hz, 1H), 3.80 (d, J = 2.4Hz, 1H),
3.85 (br s, 1H), 3.94 (dd, J = 9.6Hz, J = 3.6Hz, 1H), 4.36 (br s, 1H), 4.77 (q, J = 6.6Hz,
1H), 4.88 (d, J = 4.2Hz, 1H).
Synthesis of Compound 27: Compound 27 was synthesized as described
in Figure 2.
Compound 27:
Synthesis of Compound 27A: Compound 19 (0.05g) was dissolved in
CH Cl (10 ml). To this solution was added Pd[(Ph )P] (5 mg), Bu3SnH (0.0011 ml),
2 2 3 4
and (CF3CO) O (0.0015 ml) with stirring at room temperature. Stirring was continued
for 30 min at room temperature. The reaction mixture was evaporated to dryness under
reduced pressure and the residue was purified by column chromatography (silica gel) to
give compound 27A (0.030g).
Compound 27A (0.025 g) was subjected to hydrogenation with 10% Pd-
C exactly in same way as described for compound 21 and the solvent was evaporated
off after filtering of the catalyst. The residue was treated with NaOMe in MeOH as
described for compound 22, neutralized with IR-120 (H+) resin, filtered, and the
solvent was evaporated off. The residue was purified by reverse phase (C18) HPLC to
give compound 27 (7 mg). m/z calculated for C H F NO = 759.3. Found = 782.3
33 52 3 15
(M+Na).
Synthesis of Compound 28:
Compound 28:
Synthesis Scheme for Compound 28:
Synthesis of Compound 28: Commercially available compound 27B
(0.014 g) was dissolved in DMF (1 ml). To this solution was added DIPEA (0.00175
ml) and HATU (0.038 g) and the reaction mixture was stirred for 2 min at room
temperature. Compound 23 (0.035 g) was added and the reaction mixture was stirred
for 1h at room temperature. Solvent was evaporated off and the residue was purified by
HPLC (C18) to give compound 28 (17 mg).
Synthesis of compound 29:
Compound 29:
Synthesis Scheme for Compound 29:
Commercially available compound 27C (0.021 g) was reacted with
compound 23 (0.035 g) exactly in the same way as described for compound 28 and
purified by HPLC (C18) to give compound 29 (0.020 g).
EXAMPLE 2
E-SELECTIN ACTIVITY – BINDING ASSAY
The inhibition assay to screen for and characterize glycomimetic
antagonists of E-selectin is a competitive binding assay, which allows the determination
of IC values. E-selectin/Ig chimera was immobilized in 96 well microtiter plates by
incubation at 37°C for 2 hours. To reduce nonspecific binding, bovine serum albumin
was added to each well and incubated at room temperature for 2 hours. The plate was
washed and serial dilutions of the test compounds were added to the wells in the
presence of conjugates of biotinylated, sLe polyacrylamide with
streptavidin/horseradish peroxidase and incubated for 2 hours at room temperature.
To determine the amount of sLe bound to immobilized E-selectin after
washing, the peroxidase substrate, 3,3’,5,5’ tetramethylbenzidine (TMB) was added.
After 3 minutes, the enzyme reaction was stopped by the addition of H PO , and the
absorbance of light at a wavelength of 450 nm was determined. The concentration of
test compound required to inhibit binding by 50% was determined and reported as the
IC value for each glycomimetic E-selectin antagonist as shown in the table below.
IC values for exemplary compounds disclosed herein are provided in the following
table.
E-Selectin Antagonist Activity
of Glycomimetic Compounds
Compound IC (μM)
22 <4.0
27 <4.0
29 <4.0
<4.0
28 <4.0
45 <4.0
In addition to reporting the absolute IC value as measured above,
relative IC values (rIC ) are determined by a ratio of the IC measured for the test
50 50 50
compound to that of an internal control (reference) stated for each assay.
Substitution of the methyl group at the R position of compound 22 with
a trimethylfluoro (-CF ) group did not significantly alter the E-selectin antagonist
activity of compound 22; however, the substitution did increase the hydrophobicity of
the molecule, thereby improving the bioavailability of the glycomimetic compound.
EXAMPLE 3
EFFECTS OF TREATMENT WITH AN E-SELECTIN –SPECIFIC ANTAGONIST (COMPOUND 25)
IN A LEUKEMIA ANIMAL MODEL
The E-selectin ligand HCELL (hematopoietic cell E-/L-selectin ligand)
is expressed by normal hematopoietic stem cells (Merzaban et al., Blood 118(7):1774-
83 (2011)) as a functional glycoform of CD44. High level CD44 expression (99%±
1.4%) has also been observed by blasts from 55 patients with acute myeloid leukemia
+ - +
(AML) (i.e., AML blasts) and by putative CD34 CD38 CD123 leukemia stem cells
(LSCs) (99.8% ± 0.6%). The mean fluorescence intensity (MFI) for CD44 expression
by AML blasts was one to two logs higher than the MFI for 16 other adhesion
receptors. The majority of blasts from patients with AML also express an E-selectin
ligand by flow cytometry: >75%% of 22 primary gated blast samples exhibit ≥10%
binding of E selectin-IgG chimeric protein with a mean of 22.7% ± 0.17% SD, range
1.8 to 66.2%. The ligand was identified as HCELL by immunoprecipitation of CD44
from AML cell membranes, followed by staining with HECA 452 antibody that
recognizes a functional trisaccharide domain shared by sialyl Le and sialyl Le and is
known to bind to E-selectin. HECA 452 detected the functional glycoform of CD44
known as HCELL, a major ligand for E-selectin, and also identified the human
lymphocyte homing receptor CLA (cutaneous lymphocyte antigen).
HECA 452 labeled 5 of 6 patient leukemia blast populations, with mean
+ - +
expression 59.0% ± 24.8%. HECA 452 antibody labeled CD34 CD38 CD123 LSCs in
addition to leukemic blasts with a higher percent expression in most cases for the LSCs
than the corresponding unfractionated blast population. HECA 452 also labeled 94% of
human AML cells that had been serially engrafted in NODscid IL2Rgc animals,
fulfilling the functional definition of LSCs (scid repopulating cells), suggesting that
HCELL may be enriched on LSCs. A change in morphology of AML blasts was
observed when the cells bound to E-selectin coated plastic. The AML blasts elongated
and became more cuboidal and less reflective in contrast to the non-adherent cells,
which remained round and refractile. AML blasts appear to bind to the elongated ends
of spindle shaped endothelial cells. Compound 25 (concentration 20 μM) inhibited
adhesion of primary human AML cells to E-selectin by an average of 45.0%± 9.1%SD
for samples from all patients. For one patient for example, the percent inhibition with
Compound 25 compared to media control was 33.4%± 15.3% SD, p=0.000018.
Adhesion to E-selectin did not confer adhesion-mediated chemotherapy
resistance to daunorubicin or cytarabine observed with adhesion to recombinant
fibronectin peptide or immobilized VCAM-1 (see Becker et al., Blood 113(4):866-74
(2009)). We demonstrated that a glycomimetic compound dual inhibitor of E-selectin
and CXCR4 (see U.S. Patent Application Publication No. 2010/0279965) mobilized
human AML engrafted in NODscid IL2Rgc mice (see Chien et al., Abstract 579, at
American Society for Hematology, 53 ASH Annual Meeting and Exposition, San
Diego, CA; December 10-13, 2011; Blood, Volume 118, Issue 21) to a greater degree
than we observed with CXCR4 inhibitor plerixafor (see Chien et al Abstract 1432, at
American Society for Hematology, 53 ASH Annual Meeting and Exposition, San
Diego, CA; December 10-13, 2011) alone (3-4 fold vs. approximately 2 fold). The E-
selectin antagonist Compound 25 (40 mg/kg) mobilized both human and murine cells in
immunodeficient xenograft mice engrafted with human AML. A 2-fold increase in
WBC (p=0.00067) and 2-fold increase in human AML cells (p=0.14) was observed at 3
hrs.
In another experiment, mice were engrafted with human AML blasts and
treated with Compound 25 in combination with daunorubicin and cytarabine (araC) or
with daunorubicin and cytarabine only. When the AML cells comprised about 10% of
cells in the blood, the mice were treated. At Days 1, 2, and 3, groups of animals (four
per group) Compound 25 was administered at 40 mg/kg twice daily. On Day 1, three
hours after the first treatment of the animals with Compound 25, daunorubicin (3
mg/kg) and araC (300 mg/kg) were administered. On Days 2 and 3, three hours after
the first dose of Compound 25, only araC (300 mg/kg) was administered. Compound
and the chemotherapeutic drugs were administered intraperitoneally. A second
group of mice received daunorubicin and araC only. Tumor burden was measured in
the bone marrow, blood, and spleen.
The combination of Compound 25 with the two chemotherapeutics
resulted in greater depletion of human AML from the bone marrow (22% as many
AML cells) and spleen (31% as many AML cells) than observed with daunorubicin and
cytarabine in the absence of Compound 25. Without being bound by any particular
theory, residence of human AML in the bone marrow vascular niche may involve E-
selectin, and migration of AML blasts may involve interactions with the vascular
endothelium through E-selectin. See also Chien et al., Poster 4092 at American Society
for Hematology, 54 ASH Annual Meeting and Exposition, Atlanta, GA December 8-
11, 2012; Blood, Volume 120, Issue 21.
EXAMPLE 4
EFFECTS OF TREATMENT WITH AN E-SELECTIN –SPECIFIC ANTAGONIST
IN A ACUTE LYMPHOBLASTIC LEUKEMIA (ALL) ANIMAL MODEL
The effectiveness of an E-selectin antagonist in an ALL animal model is
determined. The experiments are designed according to methods routinely practiced in
the art with respect to choice of an ALL cell line, number of animals per group, dosing
and administration schedule of the test groups and controls, and statistical analytical
methods. For example, ALL Nalm-6 cells are tagged with green fluorescent protein
(GFP) or DiD (a carbocyanine fluorescent dye) and then engrafted into mice (1 x 10
cells per mouse). Approximately one week after administration of the tagged cells to
the animals, groups of mice (6 per group) are treated as follows. Group 1 (Control)
receives vehicle (PBS) only. Each animal in Group 2 receives an E-selectin antagonist
(e.g., Compound 25 (40 mg/kg)) daily on days 1, 2, and 3. The animals in Group 3
receive a chemotherapeutic drug (e.g., doxorubicin (DOX) (2 mg/kg)) daily on days 1,
2, and 3(called Dose 1). The mice in Group 4 each receive Compound 25 (40 mg/kg)
three hours prior to DOX administration (2 mg/kg) once a day on days 1, 2, and 3.
Group 5 receives DOX at a dose of 3 mg/kg daily on days 1, 2, and 3 (called Dose 2).
In Group 6, each animal receives Compound 25 (40 mg/kg) three hours prior to DOX
administration (3 mg/kg) once a day on days 1, 2, and 3. The mice are observed for up
to two months. Survival, circulating leukemic cells, and leukemic burden in the bone
marrow are determined during the observation period. The number of circulating
leukemic cells is determined by in vivo flow cytometry. Intravital microscopy is
performed to determine leukemic burden in the bone marrow.
EXAMPLE 5
EFFECTS OF TREATMENT WITH AN E-SELECTIN –SPECIFIC ANTAGONIST
IN A PANCREATIC CANCER ANIMAL MODEL
The effectiveness of an E-selectin antagonist in a pancreatic cancer
animal model is determined. The pancreas of male athymic nu/nu mice (4-6 weeks old)
are injected orthotopically with S2.013 pancreatic cancer cells. Six groups of animals
(e.g., 15 mice per group) receive the following treatments beginning approximately 7
days after injection of the pancreatic cancer cells. Alternatively, the animals receive
treatments when small tumors are perceptible. Group 1 (Control) receives vehicle
(PBS) only. Group 2 receives gemcitabine twice weekly (2/week) for four weeks.
Group 3 receives an E-selectin antagonist (e.g., Compound 25 (40 mg/kg)) twice daily
(BID) for four weeks. Group 4 receives Compound 25 (40 mg/kg) once daily (qD) for
four weeks. Group 5 receives gemcitabine in combination with Compound 25 BID.
Group 6 receives gemcitibine (dosed twice daily for four weeks) in combination with
Compound 25, which is administered once daily. Tumor burden is determined by
ultrasound or 2-deoxyglucose (2DG) imaging. The animals are sacrificed approximately
4 weeks after treatment.
EXAMPLE 6
EFFECTS OF TREATMENT WITH AN E-SELECTIN –SPECIFIC ANTAGONIST (COMPOUND 25)
IN AN ANIMAL MODEL OF VENOUS THROMBOEMBOLISM (VTE)
Animal Model
Most animal models of venous thromboembolism do not test compounds
under continuous blood flow, but rather induce thrombosis through ligation or balloon
catheterization. A more clinically relevant model was developed in which injury is
transiently induced in the presence of continuous blood flow and exposure to normal
blood levels of circulating test compound (see, e.g., Diaz et al., Thromb. Haemot. 104:
366-375 (2010)). A microelectrode is implanted in the inferior vena cava and a current
of 250 uAmps is applied for 15 minutes. Typical endothelial dysfunction found in
venous disease was demonstrated by electron microscopy, immunohistochemistry,
inflammatory cell counts, and biomarkers of thrombosis. Ultrasound imaging further
detected the formation of thrombus in real time under blood flow (see, e.g., Diaz et al.,
supra).
Male C57BL/6J mice underwent an electrolytic inferior vena cava (IVC)
model to produce a non-occlusive thrombosis via electrical stimulation (250 μAmp).
Animals were divided into prophylactic or treatment groups. Both groups included the
following: non-thrombosed animals (TC, no surgery or drug), 2 Day sham (needle
inside the IVC and no current or drug), 2 Day CTR (No Treatment: current and no
drug), 2 Day Compound 25 (10 mg/kg IP BID), and low molecular weight heparin
(LMWH) (LOVENOX®, 6 mg/kg subcutaneously once a day). Animals were divided
into prophylactic or treatment groups. Mice in the prophylactic group were dosed one
day pre-thrombus induction through day 1. Animals in the treatment groups received
the first dose of the drug following thrombus induction on day 1. Mice were euthanized
2 days post-thrombosis for tissue harvest and blood collection for the following
evaluations: thrombus weight; vein wall inflammatory cell counts per high power field;
vein wall-thrombus histology; and intra-thrombus polymorphonuclear cell (PMN)
counts. A separate group of mice received IV administration of compounds for tail
bleeding time evaluation (seconds).
Thrombus was induced in the inferior vena cava of mice as described
above in the electrolytic inferior vena cava model (EIM). After injury, the E-selectin
specific antagonist, Compound 25 (Example 1), was administered as a treatment twice a
day at 10 mg/kg. Another cohort of mice received low molecular weight heparin
(LMW heparin) (Lovenox, once a day, 6 mg/ml). As noted above, on the second day
after thrombus induction, the inferior vena cava was removed and weighed. No
electrodes were implanted in Control mice. Electrodes were implanted but no
amperage was delivered in the inferior vena cava of mice in the Sham cohort. As
shown in Figure 4, treatment with Compound 25 at 10 mg/kg after injury significantly
decreased venous thrombus formation (Compound 25 vs. No treatment, P = 0.0271) as
did LMW heparin (LMW heparin vs. No treatment, P = 0.0203). All mice pre-treated
prophylactically with Compound 25 or LMWH followed the same pattern of decreasing
thrombus weight 2 days post injury (P<0.05).
EXAMPLE 7
EFFECT OF COMPOUND 25 ON TIME REQUIRED TO FORM A CLOT
To compare anti-coagulant properties of LMW heparin (LMWH) and
Compound 25 (see Example 1), bleeding times in mice were evaluated. Test
compounds were injected via the penile vein in mice and after 5 minutes the tail vein
was nicked with a scalpel. The tail was then placed in a tube of isotonic saline and the
time necessary to clot the wound as recorded.
LMW heparin is a known anti-coagulant. As shown in Figure 5, LMW
heparin delayed clotting over 4 times longer than control bleeding times, whereas
Compound 25 slightly delayed clotting. LMWH at 6 mg/kg dose significantly elevated
tail bleeding times in mice versus controls (341±27, 491±60 vs. 82±6 seconds, P<0.01).
Compound 25 (10 mg/kg, IV) had significantly lower tail bleeding times compared to
an IV dose of LMWH (6 mg/kg, P<0.01). Compound 25 is a significant improvement
in reducing bleeding time over LMW heparin.
Vein Wall Morphometrics and Histology: Mice that were treated with
Compound 25 after injury had significantly decreased vein wall monocyte extravasation
compared to controls (P<0.05). When animals were treated with Compound 25 or
LMWH prophylactically (i.e., prior to injury), significantly decreased vein wall PMN
extravasation was observed 2 days post thrombosis (P=0.027 and P=0.007
respectively). The same pattern held true for prophylaxis with Compound 25 and
LMWH on vein wall monocyte extravasation at the same time point (P<0.01).
Intra-Thrombus PMN Counts: Compound 25 administered as a
prophylactic therapy significantly decreased intra-thrombus cell counts versus control
animal (14.5±3.7 vs. 37.4±4.7 PMNs/HPF, P=0.009), and these animals had decreased
venous thrombus burden. Only mice that received Compound 25 therapy visually had
more intra-thrombus vascular channels compared to control animals and mice receiving
LMWH therapy.
The various embodiments described above can be combined to provide
further embodiments. All U.S. patents, U.S. patent application publications, U.S. patent
applications, non-U.S. patents, non-U.S. patent applications, and non-patent
publications referred to in this specification and/or listed in the Application Data Sheet
are incorporated herein by reference, in their entirety. Aspects of the embodiments can
be modified, if necessary, to employ concepts of the various patents, applications, and
publications to provide yet further embodiments.
These and other changes 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 (21)
1. A compound having the formula (I): or a pharmaceutically acceptable salt, stereoisomer, tautomer, hydrate or solvate thereof, wherein: R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or 1 8 2 8 2 8 1 8 2 8 C -C haloalkynyl; R is a linker-non-glycomimetic moiety, wherein the non-glycomimetic moiety comprises polyethylene glycol, and wherein the linker is -C(=O)NH(CH ) NHC(=O)-; 2 1-4 R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl, 1 8 2 8 2 8 1 8 2 8 C -C haloalkynyl or cyclopropyl; 4 1 2 1 2 R is -OH or –NZ Z where Z and Z are each independently H, C -C alkyl, C -C 1 8 2 8 alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or C -C haloalkynyl or wherein 2 8 1 8 2 8 2 8 Z and Z join to form a ring; R is C -C cycloalkyl; R is -OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, 1 8 2 8 2 8 1 8 C -C haloalkenyl or C -C haloalkynyl; 2 8 2 8 R is -CH OH, C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, 2 1 8 2 8 2 8 1 8 C -C haloalkenyl or C -C haloalkynyl; and 2 8 2 8 R is C -C alkyl, C -C alkenyl, C -C alkynyl, C -C haloalkyl, C -C haloalkenyl or 1 8 2 8 2 8 1 8 2 8 C -C haloalkynyl.
2. The compound of claim 1 having the formula: wherein n is 1 to 100.
3. The compound of claim 2 wherein n is 4, 8, 12, 16, 20, 24, or 28.
4. The compound of claim 3 having one of the formulae:
5. The compound of claim 1 having the formula:
6. A pharmaceutical composition comprising a compound of any one of claims 1-5 and a pharmaceutically acceptable excipient.
7. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for treating or preventing metastasis of cancer cells.
8. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for use in combination with chemotherapy or radiotherapy or both chemotherapy and radiotherapy for treating cancer.
9. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for treating or preventing thrombosis.
10. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for inhibiting infiltration of cancer cells into bone marrow.
11. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for inhibiting adhesion of a tumor cell that expresses a ligand of E-selectin to an endothelial cell expressing E-selectin.
12. Use of the compound of any one of claims 1-5 in the manufacture of a medicament for enhancing hematopoietic stem cell survival.
13. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of treating or preventing metastasis of cancer cells.
14. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of treating cancer, wherein said method comprises using said compound or composition in combination with chemotherapy or radiotherapy or both chemotherapy and radiotherapy.
15. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of treating or preventing thrombosis.
16. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of inhibiting infiltration of cancer cells into bone marrow.
17. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of inhibiting adhesion of a tumor cell that expresses a ligand of E-selectin to an endothelial cell expressing E-selectin, optionally wherein the endothelial cell is present in the bone marrow.
18. A compound of any one of claims 1-5 or a pharmaceutical composition according to claim 6 for use in a method of enhancing hematopoietic stem cell survival in a subject, optionally wherein the subject has received or will receive chemotherapy or radiotherapy or both chemotherapy and radiotherapy.
19. A compound according to claim 1, substantially as herein described with reference to any example thereof.
20. A pharmaceutical composition according to claim 6, substantially as herein described with reference to any example thereof.
21. Use according to the any one of claims 7-12, substantially as herein described with reference to any example thereof.
Applications Claiming Priority (11)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US201161579646P | 2011-12-22 | 2011-12-22 | |
| US61/579,646 | 2011-12-22 | ||
| US201261583547P | 2012-01-05 | 2012-01-05 | |
| US61/583,547 | 2012-01-05 | ||
| US201261704399P | 2012-09-21 | 2012-09-21 | |
| US201261704424P | 2012-09-21 | 2012-09-21 | |
| US61/704,399 | 2012-09-21 | ||
| US61/704,424 | 2012-09-21 | ||
| US201261734924P | 2012-12-07 | 2012-12-07 | |
| US61/734,924 | 2012-12-07 | ||
| PCT/US2012/071519 WO2013096926A1 (en) | 2011-12-22 | 2012-12-21 | E-selectin antagonist compounds, compositions, and methods of use |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ627068A NZ627068A (en) | 2016-09-30 |
| NZ627068B2 true NZ627068B2 (en) | 2017-01-05 |
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