AU714294B2 - Parevins and tachytegrins - Google Patents
Parevins and tachytegrins Download PDFInfo
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- AU714294B2 AU714294B2 AU64529/96A AU6452996A AU714294B2 AU 714294 B2 AU714294 B2 AU 714294B2 AU 64529/96 A AU64529/96 A AU 64529/96A AU 6452996 A AU6452996 A AU 6452996A AU 714294 B2 AU714294 B2 AU 714294B2
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- 150000002891 organic anions Chemical class 0.000 description 1
- 150000002892 organic cations Chemical class 0.000 description 1
- 229960003104 ornithine Drugs 0.000 description 1
- 230000003647 oxidation Effects 0.000 description 1
- 238000007254 oxidation reaction Methods 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 238000010647 peptide synthesis reaction Methods 0.000 description 1
- 210000005105 peripheral blood lymphocyte Anatomy 0.000 description 1
- 210000003819 peripheral blood mononuclear cell Anatomy 0.000 description 1
- 239000000825 pharmaceutical preparation Substances 0.000 description 1
- 239000012071 phase Substances 0.000 description 1
- NBIIXXVUZAFLBC-UHFFFAOYSA-K phosphate Chemical compound [O-]P([O-])([O-])=O NBIIXXVUZAFLBC-UHFFFAOYSA-K 0.000 description 1
- 229910052698 phosphorus Inorganic materials 0.000 description 1
- 229920001282 polysaccharide Polymers 0.000 description 1
- 239000005017 polysaccharide Substances 0.000 description 1
- 239000011591 potassium Substances 0.000 description 1
- 229910052700 potassium Inorganic materials 0.000 description 1
- 239000002243 precursor Substances 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 108010031719 prolyl-serine Proteins 0.000 description 1
- 230000017854 proteolysis Effects 0.000 description 1
- 238000000746 purification Methods 0.000 description 1
- 230000001698 pyrogenic effect Effects 0.000 description 1
- 238000010188 recombinant method Methods 0.000 description 1
- 238000011084 recovery Methods 0.000 description 1
- 238000004007 reversed phase HPLC Methods 0.000 description 1
- 229940043230 sarcosine Drugs 0.000 description 1
- 229920006395 saturated elastomer Polymers 0.000 description 1
- 238000012216 screening Methods 0.000 description 1
- 125000000467 secondary amino group Chemical group [H]N([*:1])[*:2] 0.000 description 1
- 230000028327 secretion Effects 0.000 description 1
- UQDJGEHQDNVPGU-UHFFFAOYSA-N serine phosphoethanolamine Chemical compound [NH3+]CCOP([O-])(=O)OCC([NH3+])C([O-])=O UQDJGEHQDNVPGU-UHFFFAOYSA-N 0.000 description 1
- 239000002356 single layer Substances 0.000 description 1
- 229910052708 sodium Inorganic materials 0.000 description 1
- RMLUKZWYIKEASN-UHFFFAOYSA-M sodium;2-amino-9-(2-hydroxyethoxymethyl)purin-6-olate Chemical compound [Na+].O=C1[N-]C(N)=NC2=C1N=CN2COCCO RMLUKZWYIKEASN-UHFFFAOYSA-M 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 238000010532 solid phase synthesis reaction Methods 0.000 description 1
- 210000004989 spleen cell Anatomy 0.000 description 1
- 230000007480 spreading Effects 0.000 description 1
- 238000003892 spreading Methods 0.000 description 1
- 230000006641 stabilisation Effects 0.000 description 1
- 238000011105 stabilization Methods 0.000 description 1
- 239000011550 stock solution Substances 0.000 description 1
- 238000010254 subcutaneous injection Methods 0.000 description 1
- 239000007929 subcutaneous injection Substances 0.000 description 1
- 239000005720 sucrose Substances 0.000 description 1
- 239000000725 suspension Substances 0.000 description 1
- 238000007910 systemic administration Methods 0.000 description 1
- 230000009885 systemic effect Effects 0.000 description 1
- ZJQFYZCNRTZAIM-PMXBASNASA-N tachyplesin Chemical compound C([C@H]1C(=O)N[C@@H](CCCNC(N)=N)C(=O)NCC(=O)N[C@H](C(N[C@H]2CSSC[C@H](NC(=O)[C@H](C(C)C)NC(=O)[C@H](CCCNC(N)=N)NC(=O)[C@H](CC=3C=CC=CC=3)NC(=O)[C@@H](NC(=O)[C@H](CC=3C4=CC=CC=C4NC=3)NC(=O)[C@@H](N)CCCCN)CSSC[C@H](NC(=O)[C@H](CCCNC(N)=N)NC(=O)[C@H](CCCNC(N)=N)NC(=O)[C@H](CC=3C=CC(O)=CC=3)NC2=O)C(=O)N[C@@H](CCCNC(N)=N)C(N)=O)C(=O)N1)=O)[C@@H](C)CC)C1=CC=C(O)C=C1 ZJQFYZCNRTZAIM-PMXBASNASA-N 0.000 description 1
- 125000000999 tert-butyl group Chemical group [H]C([H])([H])C(*)(C([H])([H])[H])C([H])([H])[H] 0.000 description 1
- 229960002180 tetracycline Drugs 0.000 description 1
- 229930101283 tetracycline Natural products 0.000 description 1
- 235000019364 tetracycline Nutrition 0.000 description 1
- 150000003522 tetracyclines Chemical class 0.000 description 1
- 238000011285 therapeutic regimen Methods 0.000 description 1
- 239000003104 tissue culture media Substances 0.000 description 1
- 239000003860 topical agent Substances 0.000 description 1
- 239000008009 topical excipient Substances 0.000 description 1
- 239000012049 topical pharmaceutical composition Substances 0.000 description 1
- 231100000419 toxicity Toxicity 0.000 description 1
- 230000001988 toxicity Effects 0.000 description 1
- 231100000583 toxicological profile Toxicity 0.000 description 1
- 230000009261 transgenic effect Effects 0.000 description 1
- 239000012588 trypsin Substances 0.000 description 1
- 230000001810 trypsinlike Effects 0.000 description 1
- 108010050327 trypticase-soy broth Proteins 0.000 description 1
- 241001430294 unidentified retrovirus Species 0.000 description 1
- 208000000143 urethritis Diseases 0.000 description 1
- 210000003501 vero cell Anatomy 0.000 description 1
Classifications
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07K—PEPTIDES
- C07K7/00—Peptides having 5 to 20 amino acids in a fully defined sequence; Derivatives thereof
- C07K7/04—Linear peptides containing only normal peptide links
- C07K7/08—Linear peptides containing only normal peptide links having 12 to 20 amino acids
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01N—PRESERVATION OF BODIES OF HUMANS OR ANIMALS OR PLANTS OR PARTS THEREOF; BIOCIDES, e.g. AS DISINFECTANTS, AS PESTICIDES OR AS HERBICIDES; PEST REPELLANTS OR ATTRACTANTS; PLANT GROWTH REGULATORS
- A01N37/00—Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having three bonds to hetero atoms with at the most two bonds to halogen, e.g. carboxylic acids
- A01N37/44—Biocides, pest repellants or attractants, or plant growth regulators containing organic compounds containing a carbon atom having three bonds to hetero atoms with at the most two bonds to halogen, e.g. carboxylic acids containing at least one carboxylic group or a thio analogue, or a derivative thereof, and a nitrogen atom attached to the same carbon skeleton by a single or double bond, this nitrogen atom not being a member of a derivative or of a thio analogue of a carboxylic group, e.g. amino-carboxylic acids
- A01N37/46—N-acyl derivatives
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61L—METHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
- A61L12/00—Methods or apparatus for disinfecting or sterilising contact lenses; Accessories therefor
- A61L12/08—Methods or apparatus for disinfecting or sterilising contact lenses; Accessories therefor using chemical substances
- A61L12/14—Organic compounds not covered by groups A61L12/10 or A61L12/12
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P1/00—Drugs for disorders of the alimentary tract or the digestive system
- A61P1/02—Stomatological preparations, e.g. drugs for caries, aphtae, periodontitis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/04—Antibacterial agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
- A61P31/12—Antivirals
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K38/00—Medicinal preparations containing peptides
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- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Chemical & Material Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Organic Chemistry (AREA)
- Animal Behavior & Ethology (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
- Medicinal Chemistry (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
- Pharmacology & Pharmacy (AREA)
- Oncology (AREA)
- Communicable Diseases (AREA)
- Engineering & Computer Science (AREA)
- Plant Pathology (AREA)
- Molecular Biology (AREA)
- Agronomy & Crop Science (AREA)
- Virology (AREA)
- Dentistry (AREA)
- Wood Science & Technology (AREA)
- Zoology (AREA)
- Environmental Sciences (AREA)
- Biochemistry (AREA)
- Biophysics (AREA)
- Genetics & Genomics (AREA)
- Pest Control & Pesticides (AREA)
- Proteomics, Peptides & Aminoacids (AREA)
- Bioinformatics & Cheminformatics (AREA)
- Epidemiology (AREA)
- Peptides Or Proteins (AREA)
- Medicines That Contain Protein Lipid Enzymes And Other Medicines (AREA)
- Materials For Medical Uses (AREA)
- Polysaccharides And Polysaccharide Derivatives (AREA)
- Agricultural Chemicals And Associated Chemicals (AREA)
- Preparation Of Compounds By Using Micro-Organisms (AREA)
- Micro-Organisms Or Cultivation Processes Thereof (AREA)
Description
WO 97/02287 PCT/US96/11323 PAREVINS AND TACHYTEGRINS This invention was made with funding from NIH Grant No. A122839. The U.S.
Government has certain rights in this invention.
Technical Field The invention relates to the field of antibiotic peptides. In particular, the invention concerns short peptides with unique patterns of cysteine type residues and conformations that have a wide range of antimicrobial activities.
Background Art One of the defense mechanisms against infection by both animals and plants is the production of peptides that have antimicrobial and antiviral activity. Various classes of these peptides have been isolated from tissues of both plants and animals. PCT application WO 95/03325 published 2 February 1995 contains a review of the literature on this subject.
Such peptides include tachyplesins, which are 17-18 amino acid peptides containing four invariant cysteines, the defensins, 13-defensins, and insect defensins, which are somewhat longer peptides characterized by six invariant cysteines, and antifungal and antibacterial peptides and proteins which have been found in plants.
The applications in the series of which WO 95/03325 is a part provide a new class of antimicrobial and antiviral peptides, designated "protegrins", representative members of which have been isolated from porcine leukocytes. These peptides are useful as antibacterial antiviral and antifungal agents in both plants and animals.
The isolation of some of the protegrin peptides was reported in a paper by Kokryakov, V.N. et al. FEBS (1993) 337:231-236 (July issue). A later publication described the presence of a new protegrin, whose sequence and that of its precursor were deduced from its isolated cDNA clone. Zhao, C et al, FEBSLetters (1994) 346:285-288. An additional paper disclosing cationic peptides from porcine neutrophils was published by Mirgorodskaya, O.A.
et al. FEBS(1993) 330:339-342. Storici, P. et al. Biochem Biophys Res Comm (1993) 196:1363-1367, report the recovery of a DNA sequence which encodes a pig leukocyte antimicrobial peptide with a cathelin-like prosequence. The peptide is reported to be one of the protegrins. Additional publications related to prote rins are Harwig, et al. J Peptide Sci (1995) in press; Zhao, et al. FEBSLett (1995) 376:130-134; Zhao, C. et al.
FEBS Lett (1995) 368:197-202.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 2 The protegrins have also been found to bind to endotoxins the lipopolysaccharide (LPS) compositions derived from gram-negative bacteria which are believed responsible for gram-negative sepsis. The protegrins are also effective in inhibiting the growth of organisms that are associated with sexually transmitted diseases such as Chlamydia trachomatis and Neisseria gonorrhoeae.
Protegrins are also effective against the microorganisms associated with oral mucositis, a significant side effect of cancer therapy and bone marrow transplantation that is not adequately managed by current approaches (Sonis, S.T. In: J.L. Holland et al. Cancer Medicine, 3rd ed. Lea and Febiger, Philadelphia (1993a) pp. 2381-2388; Sonis, S.T. In: V.
DeVitta et al. Principles and Practice of Oncology. J.B. Lippincott, Philadelphia (1993b) pp. 2385-2394). Oral mucositis is initiated by the cytotoxic effects of these therapies on the rapidly dividing epithelial cells of the oropharyngeal mucosa, and is exacerbated by infection with both endogenous oral flora and opportunistic bacterial and fungal pathogens.
Oral mucositis is associated with extreme discomfort and pain, especially when eating. In the case of head and neck cancers, oral mucositis is frequently a dose limiting toxicity causing delay in the completion of the therapeutic regimen. Such a delay in treatment can have a negative impact on the final therapeutic outcome. Infected oral lesions are also increasingly recognized as a significant portal of entry of microorganisms to the immunosuppressed patient resulting in sepsis (Sonis, 1993 a,b, supra).
The invention described below relates to peptide type compounds that are related to the protegrins described above, but reflect displacements of the protegrin cysteines at positions 6 and 15. The availability of these compounds, the preferred forms of which are designated parevins and tachytegrins, expands the repertoire of antimicrobial peptides and permits more exquisite matching of indications to antimicrobial formulations. Although at least one of C 4 Cs', C* 16 or C' 1 7 in the formula set forth below must be cysteine, the common name terminlogy of these components reflects particularly perferred situations wherein both of C 4 and Cn 1 7 are cysteine type residues (the tachytegrins) or where both C'5 and C' 16 are cysteine type residues (the parevins).
SUBSTITUTE SHEET (RULE 26) Disclosure of the Invention The invention provides compounds which retain generally the antimicrobial activity of the protegrins discussed above, but differ in conformation due to the dislocation of the cysteine residues at positions 6 and/or 15 of these protegrins.
Surprisingly, these modified compounds exhibit activity spectra which are analogous to those of the protegrins, but offer the opportunity to fine-tune the biological activity of antibiotics and antivirals. All of these peptides can be produced synthetically and those that contain only gene-encoded amino acids can also be produced recombinantly. These compounds are useful as preservatives or in pharmaceutical compositions in treating or preventing infection in animals. Alternatively, the peptides can be formulated into compositions which can be applied to plants to protect them against viral or microbial infection. In still another approach, the DNA encoding the peptides can be expressed in situ, in animals or preferably in plants, to combat infections. The peptides are also useful 15 as standards in antimicrobial assays and in binding endotoxins.
In one aspect the present invention provides a compound composed of 11- 24 amino acid residues comprising the amino acid sequence: 0 0
A
1
-A
2
-A
3
-C
4
-C
5
-C
6
-A
7
-C
8
-A
9
-A
1 0
-A
11
-A
12
-C
13
-A
14
-C
1 5
-C
16
-C
17
-A
18 2 2or a pharmaceutically acceptable salt or an N-terminal acylated or C- 0 terminal amidated or esterified form thereof, said compound being either in a linear or in a disulfide-bridged form, wherein: .each of A 1
-A
3 is independently present or not present, and if present each 000 S 25 is independently a basic, hydrophobic, polar/large, or small amino acid; each of C 4 and C 17 is independently present or not present, and if present each is independently selected from the group consisting of cysteine, homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino acid and a small amino acid;
C
5 is selected from the group consisting of cysteine, homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino =acid and a small amino acid; C\WINWORD\KATEL\KATE\NKI\NODELETEP64529.DOC 4 each of C6, C 8 013 and C15 is independently selected from the group consisting of cysteine, homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino acid, a small amino acid and an acidic amino acid; C16 is selected from the group consisting of cysteine, homocysteine, penicillamine, a hydrophobic amino acid or a small amino acid; each of A 7 and A 14 is independently a hydrophobic or a small amino acid; Ag-A 12 taken together are capable of effecting a p-turn when contained in the compound and at least one of A 9
-A
12 is a basic amino acid;
A
18 is present or not present, and if present, is a basic, hydrophobic, polar/large, or small amino acid; at least about 15% to about 50% of the amino acid residues composing said compound are basic amino acids; and said compound has a net positive charge of at least +1 at physiological pH; 15 with the provisos that: when one of C4, C5 or C 6 is cysteine, homocysteine or penicillamine, the other two are other than cysteine, homocysteine and penicillamine; (ii) when one of C15, C16 or C17 is cysteine, homocysteine or penicillamine, the other two are other than cysteine, homocysteine and penicillamine; and (iii) at least one of C4, C5, C16 or C,7 is cysteine, homocysteine or penicillamine.
The compounds of the invention may, in the alternative, contain a modified form of formula wherein one or both of C8 and C13 is independently replaced by a basic, hydrophobic, polar/large, acidic, or small amino acid.
Sog 25 In all of the compounds of the invention at least about 15% and no more than about 50% of the amino acids must be basic amino acids, and the compounds must have a net charge of +1 at physiological pH; with the proviso that at least one of C4*, C5*, C16* and C17* must be cysteine, homocysteine or penicillamine; and only one of C4*, C5*, and C6*, and only one of C16* and C17* can be cysteine, homocysteine or penicillamine.
C:\WINWORD\KATEL\KATENKI\NODELETE\P64529OOC 4A A particular advantage of some of the peptides of the invention, especially those which contain fewer amino acids, lies in their reduced size. As a result of this, they are less costly to produce, generally are expected to provide better distribution in tissue, and are less immunogenic. As they provide alternative structures, they are likely to have different pharmacokinetic and toxicological profiles.
In still other aspects, the invention is directed to recombinant materials useful for the production of the peptides of the invention as well as plants or animals modified to contain expression systems for the production of these peptides. The invention is also directed to pharmaceutical compositions and compositions for application to plants containing the peptides of the invention as active ingredients or compositions which contain expression systems for production of the peptides or for in situ expression of the nucleotide sequence encoding these peptides. The invention is also directed to methods to prepare 15 the invention peptides synthetically, to antibodies specific for these peptides, and to the use of the peptides as preservatives.
S
S
Q
C:\WINWORD'KATELM(ATE\NKI\NOOELETE\PG4529DOC WO 97/02287 PCT/US96/11323 Specific infections against which some of the peptides, especially the parevins and tachytegrins are particularly effective are those associated with oral mucositis, infections, such as stomach ulcers associated with H. pylori, and infections caused by Pseudomonas or MRSA.
In other aspects, the invention is directed to the use of the compounds of the invention as standards in antimicrobial assays. The compounds many also be used as antimicrobials in solutions useful in eye care, such as contact lens solutions, and in topical or other pharmaceutical compositions for treatment of sexually transmitted diseases (STDs). The invention is also directed to use of the invention compounds as preservatives for foods or other perishables. As the invention peptides can inactivate endotoxin, the invention is also directed to a method to inactivate endotoxins using the compounds of the invention and to treat gram-negative sepsis by taking advantage of this property.
Brief Description of the Drawings Figure 1 shows antibacterial activity of two of the parevins against E. Coli; Figure 2 shows antibacterial activity of two of the parevins against Listeria monocytogenes; Figure 3 shows antifungal activity of two of the parevins against Candida albicans; Figure 4 shows antibacterial activity of a tachytegrin against E. coli.
Figure 5 shows antibacterial activity of a tachytegrin against B. subtilis.
Figure 6 shows antibacterial activity of a tachytegrin against S. typhimurium.
Modes of Carrying Out the Invention The peptides of the invention are characterized by the amino acid sequence: Al-A2-A3-C4*-C'-C6*- -Ag-Alo-Ai -Al2-C13-Al4-C 15*-C16"C 7 *-Ais- (1) and its defined modified forms. Any of these peptides which may coincidentally occur in nature must be in purified and isolated form or prepared recombinantly or synthetically.
The designation An in each case represents an amino acid at the specified position in the peptide. As defined, A 1
-A
3
C
4
C
1 7 and/or Als may or may not be present. However, the peptides of the invention contain 11-24 amino acids. Thus, the sequence shown as can SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 6 be extended at the N and/or C terminus with non-interferring amino acids or sequence. The positions of the cysteine, homocysteine or penicillamine residues, shown as C in formula are invariant in one embodiment of the peptides of the invention; however, in the modified forms of the peptides containing the sequence of formula also included within the scope of the invention, one or more of these cysteines may be replaced by a small, basic acidic or hydrophobic amino acid. However, at least one ofG C( QC~ and G7 must be cysteine, homocysteine penicillamine.
All of the peptides of the invention, however, have a net positive charge of at least +1 at physiological pH; approximately 15%-50% of the amino acid residues included in the sequence should be basic. For embodiments having as few as 11 amino acids, there may be only one basic amino acid residue; however, at least two basic residues, even in this shortchain residue, are preferred. If the peptide contains as many as 15 amino acid residues, two basic residues are required. It is preferred that at least 20% of the amino acids in the sequence be basic, more preferably 30%, but not more than The active peptides also preferably contain a P turn bracketed by two strands that form a P sheet. While not intending to be bound by any theory, applicants believe that antimicrobial activity of the compounds containing the sequence of formula is associated with such a pturn bracketed by two strands that form a p sheet structure. The amino acids A 9
-A
12 must be capable of effecting a P turn, which can be encouraged by the cystine bond between Cs and
C
1 3 as well as by hydrogen bonding between A 9 and A 12 The presence ofproline at Alo and/or An does not interfere with the p-turn stabilized by the presence of a hydrophobic amino acid at positions A 9 or A 12 As used herein, "P-turn" refers to a recognized sub-class of reverse-turns. Typically, a "p-turn" is a four amino acid residue peptide segment that reverses the direction of a polypeptide chain so as to allow a single polypeptide chain to adopt an anti-parallel P-sheet secondary structure. Generally, the two internal amino acid residues of the p-turn are not involved in the hydrogen-bonding of the P-sheet; the two amino acid residues on either side of the internal residues are included in the hydrogen-bonding of the P-sheet. The term "p-turn" expressly includes all types of peptide P-turns commonly known in the art including, but not limited to, type-I, type-II, type-III, type-I', type-II, and type-III' -turns (see, Rose et al., SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 7 1985, Adv. Protein Chem. 37:1-109; Wilmer-White et al., 1987, Trends Biochem. Sci.
12:189-192; Wilmot etal., 1988, J. Mol. Biol. 206:759-777; Tramontano etal., 1989, Proteins: Struct. Funct. Genet. 6:382-394).
The presence of the four invariant cysteines of the protegrins or of the Cs and C 13 cysteines, homocysteine or penicillamine of the compounds of the present invention is helpful in effecting the P-turn conformation; however, by properly choosing the substitutions, one or both of the cysteine, homocysteine or penicillamine residues at Cs or C 13 can be replaced without substantially disturbing the three-dimensional shape of the molecule.
The 0 sheets are believed to be effected by the sequences surrounding Cs and C 13 and are inclusive of these residues. Thus, in the unmodified forms of the compound,
A
7 and A 1 4 are preferably hydrophobic amino acids. The cysteine residues may also, then, be replaced by other residues which do not affect the maintenance of the P sheet formation; these substitutions would include acidic, basic, hydrophobic polar or small amino acids.
The amino terminus of the peptide may be in the free amino form or may be acylated by a group of the formula RCO-, wherein R represents a hydrocarbyl group of 1-6C. The hydrocarbyl group is saturated or unsaturated and is typically, for example, methyl, ethyl, i-propyl, t-butyl, n-pentyl, cyclohexyl, cyclohexene-2-yl, hexene-3-yl, hexyne-4-yl, and the like.
The C-terminus of the peptides of the invention may be in the form of the underivatized carboxyl group, either as the free acid or an acceptable salt, such as the potassium, sodium, calcium, magnesium, or other salt of an inorganic ion or of an organic ion such as caffeine. In some embodiments, it is difficult to make salts since the remainder of the molecule bears a positive charge which may repel the relevant cation. The carboxyl terminus may also be derivatized by formation of an ester with an alcohol of the formula ROH, or may be amidated by an amine of the formula NH 3 or RNH 2 or R 2 NH, wherein each R is independently hydrocarbyl of 1-6C as defined above. Amidated forms of the peptides wherein the C-terminus has the formula CONH 2 are preferred.
As the peptides of the invention contain substantial numbers of basic amino acids, the peptides of the invention may be supplied in the form of the acid addition salts. Typical acid addition salts include those of inorganic ions such as chloride, bromide, iodide, fluoride or the SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 8 like, sulfate, nitrate, or phosphate, or may be salts of organic anions such as acetate, formate, benzoate and the like. The acceptability of each of such salts is dependent on the intended use, as is commonly understood.
The peptides of the invention that contain at least two cysteines, homocysteine or penicillamine may be in straight-chain or cyclic form. The straight-chain forms are convertible to the cyclic forms, and vice versa. Methods for forming disulfide bonds to create the cyclic peptides are well known in the art, as are methods to reduce disulfides to form the linear compounds. The linear compounds can be stabilized by addition of a suitable alkylating agent such as iodoacetamide.
The cyclic forms are the result of the formation of disulfide linkages among all or some of the four cysteine, homocysteine or penicillamine residues that may be present. Cyclic forms of the invention include all possible permutations of disulfide bond formation; if the -SH containing amino acids are numbered in order of their occurrence starting at the N-terminus as C G, Q, Cs, C 1 3 Q*6, Q7 or Q's, these permutations include, when two disulfides are present: a) C 4
-C
1 7 and Cs-C 13 b) C 4
-C
16 and Cs-C 13 c) C 4
-C
1 5 and Cs-C 1 3 d) C 5
-C
17 and Cs-C 3 e) C 5
-C
16 and Cs-C 13 f) C 5
-C
1 5 and Cs-C 1 s; g) C 6
-C
17 and Cs-C 1 3 h) C 6
-C
1 6 and Cs-C 13 i) C 4 -Cs and C 13
-C
17 j) C 4 -Cs and C 13
-C
16 k) Cs-Cs and C 13
-C
17 and 1) C 5 -Cs and C 13
-C
1 6 When one disulfide is present, these permutations include:
C
4 -C17; C4-C16; SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 9 Cs-C 1 7 Cs-C 1 6 Cs-C 1 5
C
6
-C
1 7
C
6
-C
1 6 Cs-C 13
C
4 -Cs; Cs-Cs;
C
13
-C
1 7 and
C
13
-C
1 6 In the modified forms of the peptides, where 1 or 2 cysteines, homocysteine or penicillamine are replaced, similar permutations are available as in when 2-3 cysteines, homocysteine or pencillamine are present.
The linearalized forms of the native cyclic peptides have valuable activities, even when chemically stabilized to preserve the sulfhydryl form of cysteine, homocysteine or penicillamine for example, by reaction with iodoacetamide. The compounds of the invention also include linearalized forms which are stabilized with suitable reagents. As defined herein, "SH-stabilized" forms of the peptides of the invention contain sulfhydryl groups reacted with standard reagents to prevent reformation into disulfide linkages.
An alternative approach to providing linear forms of the invention compounds comprises use of the modified form of the peptides where residues at Cs and/or C 1 3 are replaced by amino aci which do not form cystine linkages, in combination with stabilization of any cysteine, homocysteine or penicillamine residues at C Q, or Q* and/or Q*C, C 6 Q7.
Forms of the invention compounds which have only one disulfide bond are conveniently obtained by replacing the cysteine, homocysteine or penicillamine residues at C 8 and/or C 1 3 preferably both, with amino acids which do not form disulfide linkages.
The amino acids denoted by A, may be those encoded by the gene or analogs thereof, and may also be the D-isomers thereof One preferred embodiment of the peptides of the invention is that form wherein all of the residues are in the D-configuration thus conferring SUBSTITUTE SHEET (RULE 26) resistance to protease activity while retaining antimicrobial or antiviral properties.
The resulting peptides are enantiomers of the native L-amino acid-containing forms.
In one class of peptides described herein, either one or both of the residues found at C 5 and/or C16* is a basic amino acid and/or at least one of A,-
A
3 and C 4 is hydrophobic and/or at least one, and preferably all four of these amino acids are deleted. By suitable manipulation of these and other features, the range of conditions under which the class of peptides of the present invention are effective can be varied. Furthermore, the spectrum of microbes against which they are effective can also be modified. This is further described hereinbelow.
Throughout the description and claims of the specification the word "comprise" and variations of the word, such as "comprising" and "comprises", is not intended to exclude other additives, components, integers or steps.
The amino acid notations used herein are conventional and are as follows: .9 9 9 o oC C \WINWORD\KATELATE\NKMODELETE\P64529.DO
M
WO 97/02287 PCT/US96/11323 One-Letter Three-Letter Amino Acid Symbol Symbol Alanmne Arginine Asparagine Aspartic acid Cysteine Glutamine Glutamic acid Glycine Histidine Isoleucine Leucine Lysine Methionine Phenylalanine Proline Serine Threonine Tryptophan Tyrosine
A
R
N
D
C
Q
E
G
H
I
L
K
M
F
P
S
T
Ala Arg Asn Asp Cys Gin Glu Gly His Ile Leu Lys Met Phe Pro Ser Thr Trp
I.
Trp Valine
Y
V
Tyr Val The amino acids not encoded genetically are abbreviated as indicated in the discussion below.
In the specific peptides shown in the present application, the L-form of any amino acid residue having an optical isomer is intended unless the D-form is expressly indicated by a dagger superscript The compounds of the invention are peptides which are partially defined in terms of amino acid residues of designated classes. Amino acid residues can be generally subclassified into major subclasses as follows: SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 12 Acidic: The residue has a negative charge due to loss of H ion at physiological pH and the residue is attracted by aqueous solution so as to seek the surface positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium at physiological pH.
Basic: The residue has a positive charge due to association with H ion at physiological pH and the residue is attracted by aqueous solution so as to seek the surface positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium at physiological pH.
Hydrophobic: The residues are not charged at physiological pH and the residue is repelled by aqueous solution so as to seek the inner positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium.
Polar/large: The residues are not charged at physiological pH, but the residue is not sufficiently repelled by aqueous solutions so that it would seek inner positions in the conformation of a peptide in which it is contained when the peptide is in aqueous medium.
This description also characterizes certain neutral amino acids as "small" since their side chains are not sufficiently large, even if polar groups are lacking, to confer hydrophobicity. "Small" amino acids are those with four carbons or less when at least one polar group is on the side chain and three carbons or less when not.
It is understood, of course, that in a statistical collection of individual residue molecules some molecules will be charged, and some not, and there will be an attraction for or repulsion from an aqueous medium to a greater or lesser extent. To fit the definition of "charged," a significant percentage (at least approximately 25%) of the individual molecules are charged at physiological pH. The degree of attraction or repulsion required for classification as polar or nonpolar is arbitrary and, therefore, amino acids specifically contemplated by the invention have been classified as one or the other. Most amino acids not specifically named can be classified on the basis of known behavior.
Amino acid residues can be further subclassified as cyclic or noncyclic, and aromatic or nonaromatic, self-explanatory classifications with respect to the side-chain substituent groups of the residues, and as small or large. The residue is co.isidered small if it contains a total of SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 13 four carbon atoms or less, inclusive of the carboxyl carbon, provided an additional polar substituent is present; three or less if not. Small residues are, of course, always nonaromatic.
For the naturally occurring protein amino acids, subclassification according to the foregoing scheme is as follows.
Acidic Aspartic acid and Glutamic acid Basic Noncyclic: Arginine, Lysine Cyclic: Histidine Small Glycine, Serine, Alanine, Threonine Polar/large Asparagine, Glutamine Hydrophobic Tyrosine, Valine, Isoleucine, Leucine, Methionine, SPhenylalanine, Tryptophan The gene-encoded secondary amino acid proline is a special case due to its known effects on the secondary conformation of peptide chains, and is not, therefore, included in a group. Cysteine and other -SH containing amino acid residues are also not included in these classifications since their capacity to form disulfide bonds to provide secondary structure is critical in the compounds of the present invention.
Certain commonly encountered amino acids, which are not encoded by the genetic code, include, for example, P-Alanine (P-Ala), or other omega-amino acids, such as 3-aminopropionic, 2,3-diaminopropionic (2,3-diaP), 4-aminobutyric and so forth, a-aminisobutyric acid (Aib), sarcosine (Sar), ornithine (Orn), citrulline (Cit), t-butylalanine (t-BuA), t-butylglycine (t-BuG), N-methylisoleucine (N-MeIle), phenylglycine (Phg), and cyclohexylalanine (Cha), norleucine (Nle), 2-naphthylalanine (2-Nal); 1,2,3,4tetrahydroisoquinoline-3-carboxylic acid (Tic); J-2-thienylalanine (Thi); methionine sulfoxide (MSO); and homoarginine (Har). These also fall conveniently into particular categories.
Based on the above definitions, Sar, p-Ala, and Aib are small; t-BuA, t-BuG, N-MeIle, Nle, Mvl, Cha, Phg, Nal, Thi and Tic are hydrophobic; Orn, 2,3-diaP and Har are basic; Cit, Acetyl Lys, and MSO are polar/large.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 14 The various omega-amino acids are classified according to size as small (3-Ala and 3-aminopropionic) or as large and hydrophobic (all others).
Other amino acid substitutions of those encoded in the gene can also be included in peptide compounds within the scope of the invention and can be classified within this general scheme according to their structure.
In all of the peptides of the invention, one or more amide linkages may optionally be replaced with another linkage which is an isostere such as -CH 2 NH-, -CH 2
S-,
-CH
2
CH
2 -CH=CH- (cis and trans), -COCH 2
-CH(OH)CH
2 and -CH 2 SO-. This replacement can be made by methods known in the art. The following references describe preparation of peptide analogs which include these alternative-linking moieties: Spatola, A.F., Vega Data (March 1983), Vol. 1, Issue 3, "Peptide Backbone Modifications" (general review); Spatola, in Chemistry and Biochemistry of Amino Acids Peptides and Proteins, B. Weinstein, eds., Marcel Dekker, New York, p. 267 (1983) (general review); Morley, J.S., Trends Pharm Sci (1980) pp. 463-468 (general review); Hudson, et al., Int JPept Prot Res (1979) 14:177-185 (-CH 2 NH-, -CH 2
CH
2 Spatola, et al., Life Sci (1986) 38:1243- 1249 (-CH 2 Hann, J Chem Soc Perkin Trans (1982) 307-314 cis and trans); Almquist, et al., JMed Chem (1980) 23:1392-1398 (-COCH 2 Jennings-White, et al., Tetrahedron Lett (1982) 23:2533 (-COCH 2 Szelke, etal., European Application EP 45665 (1982) CA:97:39405 (1982) (-CH(OH)CH 2 Holladay, et al., Tetrahedron Lett (1983) 24:4401-4404 (-C(OH)CH 2 and Hruby, Life Sci (1982) UB:189-199 In addition to analogs which contain isosteres in place of peptide linkages, the peptides or proteins of the invention include peptide mimetics in general, such as those described by Olson, G.L. et al. JMed Chem (1993) 36:3039-3049 and retro-inverso type peptides as described by Chorev, M. et al. Science (1979) 204:1210-1212; and Pallai, P.V. et al., Int J Pept Protein Res (1983) 21:84-92.
One class of preferred embodiments of the compounds invention includes the "unmodified" forms where positions 8 and 13 are independently cysteine, homocysteine or penicillamine residues, especially in the disulfide bonded form.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 In addition, or alternatively, each of A 7 and A 14 is a hydrophobic acid, preferably Ile, Val, Leu, NLe, Trp, Tyr or Phe, or is a small amino acid, Ala, Gly, Ser or Thr.
In another set of preferred embodiments, all of Ai-A 3 are not present or at least one, and preferably two of Ai-A 3 is a hydrophobic amino acid, preferably Ile, Val, Leu, NLe, Trp, Tyr or Phe.
In another set of preferred embodiments,
C
4 and/or C 17 is not present or, if present, is a cysteine, homocysteine or penicillamine or a hydrophobic amino acid, preferably Ile, Val, Leu,.NLe, Trp, Tyr or Phe, or a small amino acid, preferably S, A, G or T.
In another set of preferred embodiments, Cs* and/or C 1 6* is a cysteine, homocysteine or penicillamine or a hydrophobic amino acid, preferably Ile, Val, Leu,.NLe, Trp, Tyr or Phe, or a small amino acid, preferably S, A, G or T.
In another set of preferred embodiments,
A
9
-A
12 contain at least one hydrophobic amino acid residue, preferably Phe, Tyr or Trp.
Other preferred embodiments include those wherein each of A 1 and A 9 is independently selected from the group consisting of R, K and Har; more preferably, both A, and A 9 are R; however, each of Al may be absent.
In another class of preferred embodiments, each of A 2 and A 3 is independently selected from the group consisting of G, A, S and T; more preferably, A 2 and A 3 are G; however, A 2 and/or A 3 may be absent.
In another set of preferred embodiments, one of A 9 and A 12 is R, K, Har, Orn or H preferably R and the other is I, V, L, NLe, W, Y or F, preferably R, F or W, or is S, G, A or
T.
In another set of preferred embodiments, each of Alo and An is independently proline or a small, basic or hydrophobic amino acid, preferably R, G, W or P.
Als is preferably absent, but when present, is preferably R, K or Har, most preferably
R.
Also preferably when all four amino acids A 1
-A
3 and C 4 are present, A 1 is basic, C 4 is C or basic, and A 2 and A 3 are small amino acids, or at least one of A-A 3 and C 4 is hydrophobic. Preferred embodiments of A-A 3 include: K-G-S, K-S-G, and the like.
As described above, the compounds of Formula are either in cyclic or noncyclic SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCTIIS96/11323 16 (linearalized) form or may be modified wherein 1 or 2 of the cysteines, homocysteine or penicillamine at Cs and C 1 3 are replaced by a small, hydrophobic, or a basic amino acid residue. Such modification is preferred when compounds containing only one disulfide bond are prepared. If the linearalized forms of the compound of Formula are prepared, or if linearalized forms of those modified peptides which contain at least two cysteines are prepared, it is preferred that the sulfhydryl groups be stabilized by addition of a suitable reagent. Preferred embodiments for the hydrophobic amino acid to replace cysteine, homocysteine or penicillamine residues at Cs and/or C 1 3 are I, V, L and Nle, preferably I, V or L. Preferred small amino acids to replace the cysteine, homocysteine or penicillamine residues include G, A, S and T, more preferably G. Preferred basic amino acids are R and K.
Where the compounds of the invention have two disulfide bridges, particularly preferred are the pairs of bridges: a) C5-C 6 and Cs-C 1 3 b) C 5
-C
17 and Cs-C 1 3 c) Cs-Cs and C 13
-C
1 6 d) C 4
-C
16 and Cs-C 1 3 and e) C 4
-C
1 7 and Cs-C 1 3 Especially preferred are the bridges: 1 6 and Cs-C 1 3 and
C
4
-C
1 7 and Cs-C 1 3 Where the compound has only one disulfide bridge, particularly preferred are:
C
4
-C
17 and C 5
-C
1 6.
Particularly preferred compounds of the invention, including the N-terminal acylated and C-terminal amidated forms thereof are the parevins, wherein CQand C6 are both cysteine, homocysteine or penicillamine and the tachytegrins wherein both Q'and C7 are cysteine, homocysteine or penicillamine. Also preferred are the disulfide forms of these compounds, cis-parevins wherein the two disulfide bridges are Cs-Cs and C 1 3
-C
16 the trans-parevins wherein the disulfide bridges are C5-C 16 and Cs-C 1 3 and the trans-tachytegrins wherein the disulfide bridges are C 4 -C7 and Cs-C 1 3 Particularly preferred are the following parevins and tachytegrins: SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCTIIJS96/11323 Parevin- 1 trans and cis Parevin-2
R
R
R-G-C-V-V-C-F
trans__ and cis...
R-G-G-R-L-Y..-R
R
R
R-G-C-V-I-C-F
Parevin-3 trans and cis R-G-G-G-L
-R
R-G-C-V-V-C-F
I
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCTIUS96/1 1323 18 Parevin-4 trans and cis...
-R
R
R-G-C-V-V-C-F
trans__ and cis...
R-G-G-R-kLL-Y..
-R
R
R-G-C-V-V-C..F
Tac rtegrin- I trans
R-C-G-V-V-C-F
SUBSTITUTE SHEET (RULE'26) WO 97/02287 PCT/US96/11323 19 Tachvtegrin-2 trans__
R-C-G-V-I-C-F
Tachytegrin-3 trans__
R-G-G-
1
R-C-G-V-V-C-F
Patculary- peerdaecsadtrspaen-1ndtrans-ayegn RGGCR-GG RL-Y SUBSTITUTE SHEET (RULE 26) WO 97/02287 WO 9702287PCTIUS96/11323
R-G-G-C-R-L-Y-C-R-R-R-F-C-I-V-G-C.
R-G-G-G-C-L-Y-C-R-R-R-F-C-V-V-C.G-R;
R-G-G-C-G-L-Y-C-R-R-R-F-CVV-G-C-R
R-G-G-R-C-L-Y-C-R-G-W-I-C-F-V-C.G.R;
R-G-G-C-R-L-Y-C-R-G-W--CFV-G.C-R
R-G-G-R-C-L-Y-C-R-P-R-F-C-V-V-C..GR;
R-G-G-C-R-L-Y-C-R-P-R-F-CVVG-CR;
R-G-G-R-C-V-Y-C-R-R-RFCV-V-C.G
R-G-G-RC-HL-Y-C-RRRFCV-C-;
R-G-G-HC--Y-C-HR-RFC.V-IGC..R
R-G-G-CHar-L-Y-C-HRR-RFCVVC;
R-G-G-RC-V--Y-C-R-HR-RF-C-V-I-C;..
R-G-G-HC--Y-C-Hr-&R-FCVV--G-.R; R-G-G-C-Hr-L-Y-C-H-RCVGCR; R-G-G-R-C-L-Y-C-R-Har-R-Y-C-V-C..G.R;, R-G-G-C-R-L-Y-C-R-Ha-R--C-V-V-A.C-R;
R-G-G-G-C-L-Y-C-R-K-K-W-CV-V-C-GR;
R-G-S-C--L-Y-C-RKWC-VV-G-CR;
R-A-T-R-C-I-F-C-R-RCVVCGR;
R-A-T-C-R-I-F-C-R-HR-YFC-VIG.CR,
R-G-G-K-C-V-Y-C-R-HarRFCV-V-C-GR; R-G-G-C-K-V-Y-C-R-Har-R-FCVIG-C-R
R--------IRRFCVVCGW
R--------tRRFCVVGCR SUBSTITUTE SHEET (RULE 26) WO 97/02287 WO 9702287PCT/US96/1 1323 21 R-G-G-C-K-V-Y-C-R-Har t
-R-F-C-V-V-G-C-R;
R-G-G-R-C-L-Y-C-R-R-R-F-C-V-V-C-G..R (all 1); R-G-G-C-R-L-Y-C-R-R-R-F-C-V-V.G..CR (all t); R-G-G-R-C-L-Y-C-R-R-R-F-C-I-V-C..G (all'1); R-G-G-C-R-L-Y-C-R-R-R-F-C-I-V-G-C (all'1); R-G-G-G-C-L-Y-C-R-R-R-F-C-V-V..C.GR (all 1); R-G-G-C-G-L-Y-C-R-R-R-F-C-y-V-G-C..R (all't); R-G-G-R-C-L-Y-C-R-G-W-I-C-F-V-C-G..R (all1; R-G-G-C-R-L-Y-C-R-G-W-I-C-F-V-G-C-R (allt)
R-G-G-R-C-L-Y-C-R-P-R-F-C-V-V-C-G.R;
R-G-G-C-R-L-Y-C-R-P-R-F-C-V-V-G-C-R,
R-G-G-C-L-R-Y-C-R-P-R-F-C-V-R-V..CR
R-G-G-C-R-L-Y-C-R-R-R-F-C-V-V-G-C-R;
R-G-V-C-L-R-Y-C-R-G-R-F-C-V-R-L-C-R,
R-G-R-V-C-L-R-Y-C-R-G-R-FCV-R-L.C..F-R
R-W-R-V-C-L-R-Y-C-R-G-R-F-C-V-R-L-C..L-R
R-G-W-R-V-C-L-K-Y-C-R-G-R-F-C-V-K-L-CL.R
R-G-G-R-V-C-L-R-Y-C-R-G-K-F-C-V-R-L-C-L-R;
both the linear and mono- and bicyclic forms thereof, and including the N-terminal acylated and C-terminal amidated. forms; Particularly preferred are the cyclic forms and C-terminal amidated forms of
R-G-G-C-L-R-Y-A-V-P-R-F-A-V-R-V-C-R
R-G-G-C-L-R-Y-T-K-P-K-F-T-V-R-V-C-R
R-G-G-C-L-R-Y-A-V-G-R-F-A-V-R-V-C-R
R-G-G-C-L-R-Y-C-R-P-R-F-C-V-R-V-C-R
R-G-G-C-R-L-Y-C-R-R-R-F-C-V-V-G-C-R;,
R-G-V-C-L-R-Y-C-R-G-R-F-C-V-R-L-C-R;
R-G-R-V-C-L-R-Y-C-R-G-R-F-C-V-R-L-C-F-R;
R-W-R-V-C-L-R-Y-C-R-G-R-F-C-V-R-L-C-L-R-)
SUBSTITUTE SHEET (RULE 26) WO 97/02287 WO 9702287PCTIUS96/11323 22
R-G-W-R-V-C-L-K-YCRGRFCVKL-C-L-P
R-G-G-R-V-C-L-R-Y-C-R-GK-F-CVRLC-L.R;
Modified forms
R-G-G-R-C-L-Y-A-RRR-F-A-VV-C-GR
R-G-G-G-C-L-Y--R-R-RFASIVC.G;
R-G-G-R-C-L-Y-A-R-R-R-F-AG
R-G-G-HR-C-L-Y-A-R-R-RF.GC..;
K-G-G-HR-C-L-Y---R-R-IVVC.
R-G-G-HarHC-L-Y-A-HR-RRFVG.C; R-G-G-Hr-C-V-Y-V--Hr--RFLSVVC.G-
R-G-G-R-C-L-Y-S-R-K-K-WAVS-C-GR;
R-G-G-R-C-L-Y-S-R-Hr-R-YSVIC-G-R;
R-G-S-G-C-I-Y-C-R-R-K-W-GV.V.GCR;
R-A-T-R-C-I-F-S-R-R-R-F-SVV-C-GR;
R-G-G-K-C-V-Y-G-R-HRFSV-V-C-G-R
R-G-G-K-C-V-Y-L-R-Hart-R-F-LVV-C-GR; R-G-G-RC------P-R-1-GAV.VCGR
R-G-G-C-L-R-Y-T-K-P-K-F-T-V-R-V-C-R
R-G-G-C-L-R-Y-A-R-X-R-F-A-V-R-V-C..R(XNe)
R-G-F-C-L-R-Y-T-V-P-R-F--V-R--C-R
R-G-F-C-L-R-Y-K-V-G-R-F-K-V-R-F-C-V.R;
R-G-F-C-L-R-Y-X-V-G-R-F-X-V-R-F-C-V..R (X=NMeG), R-G-G-C-L-R-Y-A-R-X-R-F-A-V-R-V-C-R (X=NMeG);-
R-G-G-C-L-R-Y-A-V-G-R-F-A-V-R-V-C-R;
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCTIUS96/11323 23 R-G-F-C-L-R-Y-X-V-G-R-F-X-V-R-F-C-V-R (X=NMeG) both the linear and cyclic (where possible) forms thereof, and including the N-terminal acylated and C-terminal amidated forms.
Particularly preferred are the cyclic forms and C-terminal amidated forms of
R-G-G-C-L-R-Y-A-V-P-R-F-A-V-R-V-C-R
R-G-G-C-L-R-Y-T-K-P-K-F-T-V-R-V-C-R
R-G-G-C-L-R-Y-A-V-G-R-F-A-V-R-V-C-R
R-G-G-C-L-R-Y-A-R-X-R-F-A-V-R-V-C-R (X=NMeG);
R-G-F-C-L-R-Y-T-V-P-R-F-T-V-R-F-C-V-R;
R-G-F-C-L-R-Y-K-V-G-R-F-K-V-R-F-C-V-R;
R-G-F-C-L-R-Y-X-V-G-R-F-X-V-R-F-C-V-R (X=NMeG); R-G-G-C-L-R-Y-A-R-X-R-F-A-V-R-V-C-R (X=NMeG);
R-G-G-C-L-R-Y-A-V-G-R-F-A-V-R-V-C-R;
R-G-F-C-L-R-Y-X-V-G-R-F-X-V-R-F-C-V-R (X=NMeG) Preparation of the Invention Compounds The invention compounds are essentially peptide backbones which may be modified at the N- or C-terminus and also may contain one or two cystine disulfide linkages. The peptides may first be synthesized in noncyclized form. These peptides may then be converted to the cyclic peptides if desired by standard methods of cystine bond formation. As applied to the compounds herein, "cyclic forms" refers to those forms which contain cyclic portions by virtue of the formation of disulfide linkages between cysteine residues in the peptide. If the straightchain forms are preferred, it is preferable to stabilize the sulfhydryl groups for any peptides of the invention which contain two or more cysteine residues.
Standard methods for synthesis of peptides can be used. Most commonly used currently are solid phase synthesis techniques; indeed, automated equipment for systematically constructing peptide chains can be purchased. Solution phase synthesis can also be used but is considerably less convenient. When synthesized using these standard techniques, amino acids not encoded by the gene and D-enantiomers can be employed in the synthesis. Thus, one very SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 24 practical way to obtain the compounds of the invention is to employ these standard chemical synthesis techniques.
In addition to providing the peptide backbone, the N- and/or C-terminus can be derivatized, again using conventional chemical techniques. The compounds of the invention may optionally contain an acyl group, preferably an acetyl group at the amino terminus.
Methods for acetylating or, more generally, acylating, the free amino group at the N-terminus are generally known in the art; in addition, the N-terminal amino acid may be supplied in the synthesis in acylated form.
At the carboxy terminus, the carboxyl group may, of course, be present in the form of a salt; in the case of pharmaceutical compositions this will be a pharmaceutically acceptable salt. Suitable salts include those formed with inorganic ions such as NH 4 Na', Mg", Ca", and the like as well as salts formed with organic cations such as those of caffeine and other highly substituted amines. However, when the compound of formula 1 contains a multiplicity of basic residues, salt formation may be difficult or impossible. The carboxy terminus may also be esterified using alcohols of the formula ROH wherein R is hydrocarbyl (1-6C) as defined above. Similarly, the carboxy terminus may be amidated so as to have the formula -CONH 2 -CONHR, or -CONR 2 wherein each R is independently hydrocarbyl (1-6C) as herein defined. Techniques for esterification and amidation as well as neutralizing in the presence of base to form salts are all standard organic chemical techniques.
If the peptides of the invention are prepared under physiological conditions, the sidechain amino groups of the basic amino acids will be in the form of the relevant acid addition salts.
Formation of disulfide linkages, if desired, is conducted in the presence of mild oxidizing agents. Chemical oxidizing agents may be used, or the compounds may simply be exposed to the oxygen of the air to effect these linkages. Various methods are known in the art. Processes useful for disulfide bond formation have been described by Tam, J.P. et al., Synthesis (1979) 955-957; Stewart, J.M. et al., "Solid Phase Peptide Synthesis" 2d Ed. Pierce Chemical Company Rockford, IL (1984); Ahmed A.K. etal., J Biol Chem (1975) 250:8477- 8482 and Pennington M.W. et al., Peptides 1990, E. Giralt et al., ESCOM Leiden, The Netherlands (1991) 164-166. An additional alternative is described by Kamber, B. et al., Helv SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCTIS96/11323 Chim Acta (1980) 63:899-915. A method conducted on solid supports is described by Albericio Int J Pept Protein Res (1985) 26:92-97.
A particularly preferred method is solution oxidation using molecular oxygen. This method has been used by the inventors herein to refold the compounds of the invention.
If the peptide backbone is comprised entirely of gene-encoded amino acids, or if some portion of it is so composed, the peptide or the relevant portion may also be synthesized using recombinant DNA techniques. The DNA encoding the peptides of the invention may itself be synthesized using commercially available equipment; codon choice can be integrated into the synthesis depending on the nature of the host.
Synthesized and recombinantly produced forms of the compounds may require subsequent derivatization to modify the N- and/or C-terminus and, depending on the isolation procedure, to effect the formation of cystine bonds as described hereinabove. Depending on the host organism used for recombinant production, some or all of these conversions may already have been effected.
For recombinant production, the DNA encoding the peptides of the invention is included in an expression system which places these coding sequences under control of a suitable promoter and other control sequences compatible with an intended host cell. Types of host cells available span almost the entire range of the plant and animal kingdoms. Thus, the compounds of the invention could be produced in bacteria or yeast (to the extent that they can be produced in a nontoxic or refractile form or utilize resistant strains) as well as in animal cells, insect cells and plant cells. Indeed, modified plant cells can be used to regenerate plants containing the relevant expression systems so that the resulting transgenic plant is capable of self protection vis-a-vis these infective agents.
The compounds of the invention can be produced in a form that will result in their secretion from the host cell by fusing to the DNA encoding the peptide, a DNA encoding a suitable signal peptide, or may be produced intracellularly. They may also be produced as fusion proteins with additional amino acid sequence which may or may not need to be subsequently removed prior to the use of these compounds as antimicrobials or antivirals.
Thus, the compounds of the invention can be produced in a variety of modalities including chemical synthesis, recombinant production, isolation from natural sources, or some SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 26 combination of these techniques.
Any members of the invention class which coincidentally occur naturally must be supplied in purified and isolated form. By "purified and isolated" is meant free from the environment in which the peptide normally occurs (in the case of such naturally occurring peptides) and in a form where it can be used practically. Thus, "purified and isolated" form means that the peptide is substantially pure, more than 90% pure, preferably more than pure and more preferably more than 99% pure or is in a completely different context such as that of a pharmaceutical preparation.
Antibodies Antibodies to the peptides of the invention may also be produced using standard immunological techniques for production of polyclonal antisera and, if desired, immortalizing the antibody-producing cells of the immunized host for sources of monoclonal antibody production. Techniques for producing antibodies to any substance of interest are well known.
It may be necessary to enhance the immunogenicity of the substance, particularly as here, where the material is only a short peptide, by coupling the hapten to a carrier. Suitable carriers for this purpose include substances which do not themselves produce an immune response in the mammal to be administered the hapten-carrier conjugate. Common carriers used include keyhole limpet hemocyanin (KLH), diphtheria toxoid, serum albumin, and the viral coat protein ofrotavirus, VP6. Coupling of the hapten to the carrier is effected by standard techniques such as contacting the carrier with the peptide in the presence of a dehydrating agent such as dicyclohexylcarbodiimide or through the use of linkers such as those available through Pierce Chemical Company, Chicago, IL.
The peptides of the invention in immunogenic form are then injected into a suitable mammalian host and antibody titers in the serum are monitored. It should be noted, however, that some forms of the peptides require modification before they are able to raise antibodies, due to their resistance to antigen processing. For example, peptides containing two cystine bridges may be nonimmunogenic when administered without coupling to a larger carrier and may be poor immunogens even in the presence of poten adjuvants and when coupled in certain formats such as using glutaraldehyde or to KLH. Any lack of immunogenicity may SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 27 therefore result from resistance to processing to a linear form that can fit in the antigenpresenting pocket of the presenting cell. Immunogenicity of these forms of the peptides can be enhanced by cleaving the disulfide bonds.
Polyclonal antisera may be harvested when titers are sufficiently high. Alternatively, antibody-producing cells of the host such as spleen cells or peripheral blood lymphocytes may be harvested and immortalized. The immortalized cells are then cloned as individual colonies and screened for the production of the desired monoclonal antibodies.
Recombinant techniques are also available for the production of antibodies, and thus, the antibodies of the invention include those that can be made by genetic engineering techniques. For example, single-chain forms, such as Fv forms, chimeric antibodies, and antibodies modified to mimic those of a particular species, such as humans, can be produced using standard methods. Thus, the antibodies of the invention can be prepared by isolating or modifying the genes encoding the desired antibodies and producing these through expression in recombinant host cells, such as CHO cells.
The antibodies of the invention are, of course, useful in immunoassays for determining the amount or presence of the peptides. Such assays are essential in quality controlled production of compositions containing the peptides of the invention. In addition, the antibodies can be used to assess the efficacy of recombinant production of the peptides, as well as screening expression libraries for the presence of peptide encoding genes.
Compositions Containing the Invention Peptides and Methods of Use The peptides of the invention are effective in inactivating a wide range of microbial and viral targets, including gram-positive and gram-negative bacteria, yeast, protozoa and certain strains of virus. Accordingly, they can be used in disinfectant compositions and as preservatives for materials such as foodstuffs, cosmetics, medicaments, or other materials containing nutrients for organisms. For use in such contexts, the peptides are supplied either as a single peptide, in admixture with several other peptides of the invention, or in admixture with additional antimicrobial agents or both. In general, as these are preservatives in this context, they are usually present in relatively low amounts, of less than by weight of the total composition, more preferably less than still more preferably less than 0.1%.
SUBSTITUTE SHEET (RULE 26)
I
WO 97/02287 PCT/US96/11323 28 The peptides of the invention are also useful as standards in antimicrobial assays and in assays for determination of capability of test compounds to bind to endotoxins such as lipopolysaccharides.
For use as antimicrobials or antivirals for treatment of animal subjects, the peptides of the invention can be formulated as pharmaceutical or veterinary compositions. Depending on the subject to be treated, the mode of administration, and the type of treatment desired e.g., prevention, prophylaxis, therapy; the invention peptides are formulated in ways consonant with these parameters. A summary of such techniques is found in Remington's Pharmaceutical Sciences, latest edition, Mack Publishing Co., Easton, PA.
The peptides of the invention can also be used as active ingredients in pharmaceutical compositions useful in treatment of sexually transmitted diseases, including those caused by Chlamydia trachomatis, Treponema pallidum, Neisseria gonorrhoeae, Trichomonas vaginalis, Herpes simplex type 2 and HIV. Topical formulations are preferred and include creams, salves, oils, powders, gels and the like. Suitable topical excipient are well known in the art and can be adapted for particular uses by those of ordinary skill.
In general, for use in treatment or prophylaxis of STDs, the peptides of the invention may be used alone or in combination with other antibiotics such as erythromycin, tetracycline, macrolides, for example azithromycin and the cephalosporins. Depending on the mode of administration, the peptides will be formulated into suitable compositions to permit facile delivery to the affected areas. The tachytegrins may be used in forms containing one or two disulfide bridges or may be in linear form. In addition, use of the enantiomeric forms containing all D-amino acids may confer advantages such as resistance to those proteases, such as trypsin and chymotrypsin, to which the peptides containing L-amino acids are less resistant.
The peptides of the invention can be administered singly or as mixtures of several peptides or in combination with other pharmaceutically active components. The formulations may be prepared in a manner suitable for systemic administration or topical or local administration. Systemic formulations include those designed for injection intramuscular, intravenous or subcutaneous injection) or may be prepared for transdermal, transmucosal, or oral administration. The formulation will generally include a diluent as well SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/1 1323 29 as, in some cases, adjuvants, buffers, preservatives and the like. The tachytegrins can be administered also in liposomal compositions or as microemulsions.
If administration is to be oral, the peptides of the invention must be protected from degradation in the stomach using a suitable enteric coating. This may be avoided to some extent by utilizing amino acids in the D-configuration, thus providing resistance to protease.
However, the peptide is still susceptible to hydrolysis due to the acidic conditions of the stomach; thus, some degree of enteric coating may still be required.
The peptides of the invention also retain their activity against microbes in the context of borate solutions that are commonly used in eye care products. Also, it is important that the peptides retain their activity under physiological conditions including relatively high saline and in the presence of serum. In addition, the peptides are dramatically less cytotoxic with respect to the cells of higher organisms as compared with their toxicity to microbes. These properties, make them particularly suitable for in vivo and therapeutic use.
By appropriately choosing the member or members of the peptide class of the invention, it is possible to adapt the antimicrobial activity to maximize its effectiveness with respect to a particular target microbe. As used herein, "microbe" will be used to include not only yeast, bacteria, and other unicellular organisms, but also viruses. The particular peptide used can also be chosen to be advantageous in a particular context, such as low salt or physiological salt, the presence or human serum, or conditions that mimic the conditions found in blood and tissue fluids.
The peptides of the invention may also be applied to plants or to their environment to prevent virus- and microbe-induced diseases in these plants. Suitable compositions for this use will typically contain a diluent as well as a spreading agent or other ancillary agreements beneficial to the plant or to the environment.
Thus, the peptides of the invention may be used in any context wherein an antimicrobial and/or antiviral action is required. This use may be an entirely in vitro use, or the peptides may be administered to organisms.
In addition, the antimicrobial or antiviral activity may be generated in situ by administering an expression system suitable for the prou iction of the peptides of the invention.
Such expression systems can be supplied to plant and animal subjects using known SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 techniques. For example, in animals, pox-based expression vectors can be used to generate the peptides in situ. Similarly, plant cells can be transformed with expression vectors and then regenerated into whole plants which are capable of their own production of the peptides.
The peptides of the invention are also capable of inactivating endotoxins derived from gram-negative bacteria lipopolysaccharides (LPS) and may be used under any circumstances where inactivation of LPS is desired. One such situation is in the treatment or amelioration of gram-negative sepsis.
Conditions Relevant to Antimicrobial/Antiviral Activity It has been stated above that as used herein "antimicrobial" activity refers to inhibition with respect both to traditional microorganisms and to viruses, although occasionally, "antimicrobial" and "antiviral" are both specifically indicated.
Media for testing antimicrobial activity are designed to mimic certain specific conditions. The standard buffer medium, medium A, uses an underlay agar with the following composition: 0.3 mg/ml oftrypticase soy broth powder, 1% w/v agarose and 10 mM sodium phosphate buffer (final pH This will be designated either "medium A" or "standard in vitro conditions" herein.
All of the remaining media contain these same components. However, in addition: A second medium contains 100 mM NaCI in order to mimic the salt levels in blood and tissue fluids. This will be designated "medium B" or "salt medium" herein.
A third medium is supplemented with 2.5% normal human serum; however, it is of low ionic strength and thus does not mimic body fluids. This medium will be designated "medium C" or "serum-containing medium" herein.
A fourth medium contains 80% RPMI-1640, a standard tissue culture medium which contains the principal ions and amino acids found in blood and tissue fluids. In addition, it contains 2.5% normal human serum. This will be designated "medium D" or "physiological medium" herein.
Particularly preferred is the amidated form of this peptide.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 31 Summary The peptides of the invention therefore represent a peculiarly useful class of compounds because of the following properties: 1) They have an antimicrobial effect with respect to a broad spectrum of target microbial systems, including viruses, including retroviruses, bacteria, fungi, yeast and protozoa.
2) Their antimicrobial activity is effective under physiological conditions i.e., physiological saline and in the presence of serum.
3) They are much less toxic to the cells of higher organismsthan to microbes.
4) They can be prepared in nonimmunogenic form thus extending the number of species to which they can be administered.
They can be prepared in forms which are resistant to certain proteases suggesting they are antimicrobial even in lysosomes.
6) They can be prepared in forms that resist degradation when autoclaved, thus simplifying their preparation as components of pharmaceuticals.
7) They can be modified in amino acid sequence so as to optimize the specificity with respect to target.
8) They can be modified structurally so as to accommodate the conditions under which antimicrobial activity is to be exhibited.
The following examples are intended to illustrate but not to limit the invention.
Example 1 Synthesis of the Invention Compounds The peptides of the invention are synthesized using conventional Fmoc chemistry on solid-phase supports. The crude synthetic peptides are refolded, purified and characterized as follows.
The crude synthetic peptide is reduced by adding an amount of dithiothreitol (DTT) equal in weight to that of the synthetic peptide, which has been dissolved at 10 mg/ml in a solution containing 6M guanidine HC1, 0.5M Tris buffer and 2 mmol EDTA, pH 8.05 and SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 32 incubated for 2 hours at 52 0 C under nitrogen. The mixture is passed through a 0.45 urn, filter, acidified with 1/20 v/v glacial acetic acid and subjected to conventional RP HPLC purification with a C18 column.
The HPLC-purified, reduced peptides are partially concentrated by vacuum centrifugation in a Speed Vac and allowed to fold for 24 hours at room temperature and air.
The folding is accomplished in 0.1M Tris, pH 7.7 at 0.1 mg peptide/ml to minimize formation ofinterchain cystine disulfides. The folded compounds are concentrated and acidified with acetic acid. The purity of the final products is verified by AU-PAGE, analytical HPLC and FAB-mass spec.
Using this procedure, the compounds trans-parevin-1 (or the "hairpin" isoform), cisparevin-1 (or "cloverleaf' isoform) and trans-tachytegrin-1 were prepared. These compounds are of the formulas Trans-parevin-1:
R-G-G-R-C-L-Y-C-R
R
R
R-G-C-V-V-C-F
Cis-parevin-l:
R-G-G-R-C-L-Y-C-R
R
R
R-G-C-V-V-C-F
SUBSTITUT EET E SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 33 Trans-tachvtegrin- 1:
R-G-G-C-R-L-Y-C-R
R
R
R-C-G-V-V-C-F
Example 2 Antimicrobial Activity The radial diffusion assay in agarose gels is conducted using radiodiffusion and gel overlay techniques as described by Lehrer, R.I. et al. J Immunol Meth (1991) 137:167-173.
Briefly, the underlay agars used for all organisms had a final pH of 7.4 and contained 10 mM sodium phosphate buffer, 1% w/v agarose and 0.30 ug/ml tryptocase soy broth powder (BBL Cockeysville, MD). In some cases, the underlay was supplemented with 100 mM NaCI. The units of activity in the radial diffusion assay were measured as described; 10 units correspond to a 1 mm diameter clear zone around the sample well. Figures 1-6 show the results against five test organisms in units described as above. A synthetic protegrin (PG-1) containing two cystines (sPG-1) or PG-1 in linear form were used as controls.
Figure 1 shows the results for trans-parevin and tachytegrin with respect to E. coli both with and without the addition of 100 mM NaCl. Both of these peptides were slightly more effective than sPG-1 although slightly less effective than linear PG-1 in the absence of salt. However, in the presence of 100 mM NaCl, all four peptides were comparably effective.
Figure 2 shows the results of the same determination with respect to L. monocytogenes. With respect to this organism, all four peptides were roughly similarly effective in the absence of salt; the presence of 100 mM NaCl, however, greatly reduced the effectiveness of linear PG-1. The remaining three peptides remained effective under these conditions.
Figure 3 shows the results of the same experiment using C. albicans as the target organism. All four peptides were comparably effective in the absence of salt; again, the effectiveness of linear PG-1 was greatly reduced in the presence of 100 mM NaCI, while the remaining three peptides maintained their effectiveness under these conditions.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 34 Figures 4-6 show the results of similar experiments using, as test peptides, the two isomers of parevin, trans-parevin (hairpin) and cis-parevin (cloverleaf). sPG-1 was used as a control. As shown in Figure 4, the two parevins were comparably effective in the absence of salt and both were more effective than sPG-1. In the presence of 100 mM NaCI, all three peptides maintained their effectiveness and were comparable.
Figure 5 shows results of the same experiment conducted with B. subtilis as target organism. Again, both forms of parevin were comparably effective and both were slightly more effective than sPG-1; in the presence of 100 mM NaCI, all three peptides remained effective antimicrobials and had about the same activity.
The results obtained with respect to S. typhimurium are also similar, as shown in Figure 6. Again, the two parevins were more effective than sPG-1 in the absence of salt and all three peptides had comparable effectiveness when 100 mM NaCI was added.
Example 3 Ability to Bind Endotoxin The compounds of the invention are tested for their ability to bind the lipid polysaccharide (LPS) of the gram-negative bacterium E. coli strain 0.55B5, using the Limulus amebocyte lysate (LAL) test for endotoxins conducted in the presence and absence of the test compounds. The test is conducted using the procedure described in Sigma Technical Bulletin No. 210 as revised in December 1992 and published by Sigma Chemical Company, St. Louis,
MO.
The LAL test is based on the ability of LPS to effect gelation in the commercial reagent E-ToxateO which is prepared from the lysate of circulating amebocytes of the Horseshoe Crab Limuluspolyphemus. As described in the technical bulletin, when exposed to minute quantities of LPS, the lysate increases in opacity as well as viscosity and may gel depending on the concentration of endotoxin. The technical bulletin goes on to speculate that the mechanism appears analogous to the clotting of mammalian blood and involves the steps of activation of a trypsin-like preclotting enzymes by the LPS in the presence of calcium ion, followed by enzymic modifications of a "coagulogen" by proteolysis to produce a clottable protein. These steps are believed tied to the biologically active or "pyrogenic" portion of the SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 molecule. It has been shown previously that detoxified LPS (or endotoxin) gives a negative LAL test.
The test compounds are used at various concentrations from 0.25 ug-10 ug in a final volume of 0.2 ml and the test mixtures contained LPS at a final concentration of 0.05 endotoxin unit/ml and E-ToxateT at the same concentration. The test compounds are incubated together with the LPS for 15 minutes before the E-ToxateT is added to a final volume after E-ToxateT addition of 0.2 ml. The tubes are then incubated for 30 minutes at 37 0 C and examined for the formation of a gel.
In a follow-up experiment, the concentration of LPS is varied from 0.05-0.25 endotoxin units Example 4 Antimicrobial Activity Under Conditions Suitable for Treatment of the Eye Contact lens solutions are typically formulated with borate buffered physiological saline and may or may not contain EDTA in addition. The compounds of the invention are tested generally in the assay described in Example 2 wherein all underlay gels contain 25 mM borate buffer, pH 7.4, 1% trypticase soy broth (0.3 ug/ml TSB powder) and 1% agarose.
Additions include either 100 mM NaCI, 1 mM EDTA or a combination thereof. Other test compounds used as controls are the defensin NP-1 and lysozyme, and dose response curves are determined.
Example Preparation ofEnantio Trans-parevin Using standard solid phase techniques, a peptide having the amino acid sequence of trans-parevin, but wherein every amino acid is in the D form is prepared. This form is tested against E. coli, L. monocytogenes, C. albicans and other microbes in the absence and presence ofprotease and otherwise as described for the radiodiffusion assay in agarose gels set forth in Example 2.
SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 36 Example 6 Activity Against STD Pathogens The compounds of the invention are tested for antimicrobial activity against various STD pathogens. These include HIV-1, Chlamydia trachomatis, Treponemapallidum, Neisseria gonorrhoeae, Trichomonas vaginalis, Herpes simplex type 2, Herpes simplex type 1, Hemophilus ducreyi, and Human papilloma virus. The results are provided in a form wherein "active" means that the peptide is effective at less than 10 ug/ml; moderately active indicates that it is active at 10-25 ug/ml; and slightly active means activity at 25-50 ug/ml. If no effect is obtained at 50-200 ug/ml the compound is considered inactive.
The compounds of the invention are tested for their antimicrobial activity against Chlamydia using the "gold standard" chlamydial culture system for clinical specimens described by Clarke, L.M. in Clinical Microbiology Procedures Handbook 11 (1992), Isenberg, H.T. Ed. Am. Soc. Microbiol. Washington, pp. 8.0.1 to 8.24.3.9.
In the assays, C. trachomatis serovar L2 (L2/434Bu) described by Kuo, C.C. et al. in Nongynococcal Urethritis and Related Infections (1977), Taylor-Robinson, D. et al. Ed. Am.
Soc. Microbiol. Washington, pp. 322-326 is used. The seed is prepared from a sonicated culture in L929 mouse fibroblast cells, and partially purified by centrifugation. Since host protein is still present in the seed aliquots, each seed batch is titered at the time of preparation with serial ten-fold dilutions to 2 x 10 9 The seed containing 9.2 x 106 IFU/ml is thawed quickly at 37 0 C and diluted to 10 2 with sucrose/phosphate salts/glycine to produce IFU of about 200 after room temperature preincubation and to dilute background eukaryotic protein.
In the initial assays, the peptides to be tested are prepared as stock solutions in 0.01% glacial acetic acid. 100 ul of the diluted chlamydial seed are aliquoted into 1.5 ml eppendorf tubes and 200 ul of the antibiotic peptide was added per tube. Aliquots of the peptide stock (and controls) are incubated with the seed at room temperature for one hour, two hours and four hours. About 10 minutes before the end of each incubation period, maintenance media are aspirated from the McCoy vials in preparation for standard inoculation and culture.
Culture is then performed in the presence and absence of the peptides; in some cases, the peptides are added to final concentration in the culture media in addition to the preculture SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 37 incubation. The test is evaluated microscopically.
In another series of experiments, various concentrations oftachytegrin (1 ug, 12.5 ug, ug and 50 ug) are used in the two-hour preincubation.
The effect of the presence of serum is also tested. The Chlamydia seed is preincubated for two hours with and without 10% FBS and also with or without test compound at 25 ug.
The experiments are repeated but adding 25 ug of compound after the start of the chlamydial culture, after centrifugation and final medium mix and one hour into the beginning of the 48-hour culture period. Finally, the compound (at 25 ug) is added to the chlamydial seed and the mix then immediately cultured.
The effect of serum is particularly important since for a topical agent to be effective in combatting Chlamydia infection, it must act in the presence of serum.
In addition, there are several mouse-based models for Chlamydia infection which can be used to assess the efficacy of the tachytegrins. These include those described by Patton, D.L. et al. in Chlamydial Infections (1990) Bowie, W.R. et al. Eds. Cambridge Universproviding a source of complement. Ten ul of a suspension of T pallidum containing about 5 x 10 7 /ul organisms is added to each tube and the mixtures with the appropriate peptides are incubated at 34 0 C under 95% N 2 and 5% CO 2 At time zero, just prior to incubation, 4 hours and 16 hours, 25 randomly selected organisms are examined for the presence or absence of motility. The 50% immobilizing end point (IEso) is calculated to indicate the concentration needed to immobilize 50% of the spirochetes. Tachyplesin IEsos are 5.231 ug and 2.539 ug for 0 and 4 hours, in contrast to HNP and NP preparations which show little immobilizing ability.
For Herpes Simplex Virus, using viral stocks prepared in VERO cells, grown in minimal essential medium (MEM) with 2% fetal calf serum, the effect of various peptides on HSV 1 MacIntyre strain, a pool often clinical HSV 1 isolates, HSV-2G, and a pool often clinical HSV 2 isolates, all sensitive to 3 uM acyclovir are tested. Two fibroblast cell lines, human W138 and equine CCL57, are used as targets and tests are done by direct viral neutralization and delayed peptide addition.
In the direct neutralization format, the virus is preincubated with the peptides for min before it is added to the tissue culture monolayers. In the delayed peptide addition SUBSTITUTE SHEET (RULE 26) WO 97/02287 PCT/US96/11323 38 format, the virus is added and allowed 50 min to adsorb to the target cells, then the monolayers are washed and peptides are added for 90 min. Finally, the monolayer is washed to remove the peptide and the cells are fed with peptide-free MEM and cultured until the untreated infected monolayers exhibit 4+ cytopathic effect (CPE) (about 60 hours).
For Trichomonas vaginallis, strain Cl (ATCC 30001) is grown as described by Gorrell, T.E. et al., Carlsberg Res Comm (1984) 49:259-268. In experiments performed in RPMI 1% heat-activated fetal calf serum, within a few minutes after exposure to 50 ug/ml PG-1, T. vaginallis (heretofore vigorously motile) becomes stationary. Soon thereafter, the organisms become permeable to trypan blue, and, over the ensuing 15-30 minutes, lyse. As expected, such organisms fail to grow when introduced into their customary growth medium (Diamond's medium). Organisms exposed to 25 ug/ml of PG-3 retain their motility.
Example 6 Antiretroviral Activity The invention compounds are tested for antiviral activity against strains of HIV using the method described in Miles, S.A. et al., Blood (1991) 78:3200-3208. Briefly, the mononuclear cell fraction is recovered from normal donor leukopacs from the American Red Cross using a Ficoll-hypaque density gradient. The mononuclear cells are resuspended at 1 x 106 cells per ml in RPMI 1640 medium with 20% fetal bovine serum, 1% penn/strep with fungizone and 0.5% PHA and incubated 24 hours at 37 0 C in 5% CO 2 The cells are centrifuged, washed and then expanded for 24 hours in growth medium.
Non-laboratory adapted, cloned HIVR-csF and HIVJ.L are electroporated into the human peripheral blood mononuclear cells prepared as described above. Titers are determined and in general, multiplicities of infection (MOI) of about 4,000 infectuous units per cell are used (which corresponds to 25-40 picograms per ml HIV p24 antigen in the supernatant).
In the assay, the HIV stocks prepared as above are diluted to the correct MOI and the PBM are added to 24 well plates at a concentration of 2 x 106 per ml. One ul total volume is added to each well. The peptide to be tested is added in growth medium to achieve the final desired concentration. Then the appropriate number of MOI are added. To assay viral growth, 200 ul of supernatant is removed on days 3 and 7 and the concentration of p24 SUBSTITUTE SHEET (RULE 26) WO 97/02287 WO 9702287PCT/US96/11323 39 antigen is determined using a commercial assay (Coulter Immunology, Hlialeah, Florida).
Controls include duplicate wells containing cells alone, cells plus peptide at 5 ug/ml cells with virus but not peptide and cells with virus in the presence of AZT at 10O' M The time of addition of peptide can be varied. Cells pretreated for 2 hours prior to addition of virus, at the time of addition of virus, or 2 hours after infection show antiviral activity for the peptide.
Example 7 Preparation and Activity of Tachytegrins Several illustrative tachytegrins were synthesized as described in Example 1 and tested for activity against Staphylococcus aureus (MRSA), Pseudomonas (Psa), VREF, Candida and K coli as described in Example 2. The results shown in Table 1 as minimal inhibitory concentration (MIC) in ug/mi were obtained with the C-terminal amidated forms except for the last two which were tested as the free acids, as indicated by TABLE I SEQUENCE MRSA Psa JVEF ICandida IE. Coli RGGCLRYAVPRFAVRVCR >128 0.051
RGGCLRYTKPKFTVRVCR___
RGGCLRYAVGRFAVRVCR___
RGGCLRYARXRFAVRVCR (X=NMeG) >32 5.7 RGFCLRYTVPRFTVRFCVR 1.88 0.57 RGFCLRYKVGRFKVRFCVR >64 2.7 RGFCLRYXVGRFXVRFCVR (X=NMeG) RGGCLRYCRPRFCVRVCR 9.8 0.18 9.68 0.2 RGGCRLYCRRRFCVVGCR 53.3 3.3 4 14 RGVCLRYCRGRFCVRLCR 8 2 RGRVCLRYCRGRFCVRLCFR 6.7 1 RWRVCLRYCRGRFCVRLCLR 4 4
RGWRVCLKYCRGRFCVKLCLR___
RGGRVCLRYCRGKFCVRLCLR 8 0.751____ RGGCLRYARXRFAVRVCR (X=TNeG) RGGCLRYAVGRFAVRVCR 1>32 5.3 RGFCLRYXVGRFXVRFCVR(X=NMeG) T>32 12 SUBSTITUTE SHEET (RULE 26)
Claims (48)
1. A compound composed of 11-24 amino acid residues comprising the amino acid sequence: A -A 2 -A 3 -C 4 -C 5 -C 6 -A -C-Ag-A 0 -All-A 2 C 13 -A 14 -C 15 -C 6 -C 17 -A 18 or a pharmaceutically acceptable salt or an N-terminal acylated or C-terminal amidated or esterified form thereof, said compound being either in a linear or in a disulfide- bridged form, wherein: each of Ai-A 3 is independently present or not present, and if present each is independently a basic, hydrophobic, polar/large, or small amino acid; each of C 4 and C, is independently present or not present, and if present each is independently selected from S the group consisting of cysteine, homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino acid and a small amino acid; C is selected from the group consisting of cysteine, S homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino acid and a small amino acid; each of C 8 C 13 and C 1 s is independently selected from the group consisting of cysteine, homocysteine, penicillamine, a basic amino acid, a hydrophobic amino acid, a polar/large amino acid, a small amino acid and an acidic amino acid; C 1 is selected from the group consisting of cysteine, homocysteine, penicillamine, a hydrophobic amino acid or a S S* small amino acid; each of A 7 and A, is independently a hydrophobic or a small amino acid; Ag-A 12 taken together are capable of effecting a p-turn when contained in the compound and at least one of A 9 -A 12 is a basic amino acid; A 18 is present or not present, and if present, is a basic, hydrophobic, polar/large, or small amino acid; at least about 15% to about 50% of the amino acid residues composing said compound are basic amino acids; and said compound has a net positive charge of at least +1 at physiological pH; with the provisos that: when one of C 4 C, or C 6 is cysteine, homocysteine or penicillamine, the other two are other than cysteine, homocysteine and penicillamine; (ii) when one of C15, C16 or C, 1 is cysteine, homocysteine or penicillamine, the other two are other than cysteine, homocysteine and penicillamine; and (iii) at least one of C 4 C s C 16 or C 17 is cysteine, homocysteine or penicillamine.
2. The compound of claim 1 which comprises two disulfide bridges.
3. The compound of Claim 2, wherein one of said disulfide bridges links Cs-C 16 and the other links C 8 -C 13
4. The compound of Claim 3 which is selected from the S group consisting of: oR R-G-G-R-C-L-Y-C-R I R I I R I I R-G-C-V-V-C-F R-G-G-R-C-L-Y-C-R *I I R R-G-C-V-V-C-F R-G-C-V-F-C-F R-G--G-G-C-L-Y-C-R R-G-G-R-C-L-Y-C-R R-G-C-V-F-C-I R-G-G-R-C-L-Y-C-R I I p R R-G-C-V-V-C-F R-G-G-R-C-V-Y-C-R R G-C-V-V-C-F K-G-G-R-C-L-Y-C-R I R R G-C-V-V-C-F R-G-G-X-C-L-Y-C-R I R R C-V-V-C-F R-G-G-X-C-L-Y-C-X *I I R R-G-G-R-C-V-Y-C-R I9. I R 99 9 I-v C-w *R-G-G-R-C-L-Y-C-R R-G- RGC-V-V-C- R-G-S-G-C-L-Y-C- -R K R-G-C-V-V-C-W R-A-T-R-C- I-F-C-R I R R-G-C-V-V-C-F 43 R-G-G-K-C-V-Y-C-R R R-G-C-V-V-C-F R T -R I- F -C -r I R r-G-C-V-V-C-F R-G-G-K-C-V-Y-C-R I IR R-G-C-V-V-C-F r-g-g-r-c-l-y-c-r r r r-g-c-v-v--c-f r-g-g-r-c-l-y-c-r r :c-v-i-c-f see 0 r-g-g-g-c-l-y-c-r 0 1 r I I r *r-g-c-v-v-c-f r-g-g-r-c-l-y-c- :r-g-c-v-f-c-i and the C-terminal amidated forms thereof, wherein X is Hr, isD-Har, lower case letters represent D-amino acids and lines between C or c residues represent disulfide linkages. The compound of Claim 2, wherein one of said disulfide bridges links C 5 -C 8 and the other links C 13 -C 6
6. The compound of Claim 5 which is selected from the group consisting of: 0 0 6 0 RGGRCLYCRRRFCVVCGR RGGRCLYCRRRFCIVCG RGGGCLYCRRRFCVVCGR RGGRCLYCRGWICFVCGR F-i RGGRCLYCRPRFCVVCGR RGGRCVYCRRRFCVVCG F-1 FF-l KGGRCLYCRRRFCVVCG RGGXCLYCRRRFCVVC T RGGXCLYCXRRFCVVCGR F-1 FF-11 RGGRCVYCRXRFCVVCGR F-1 IF-11 RGGRCLYCRKKWCVVCux RGGRCLYCRXRYCVVCGR RGSGCLYCRRKWCVVCGR RATRC IFCRRRFCVVCGR RGGKCVYCRXRFCVVCGR RATRC IFCrRRFCVVCGr RGGKCVYCRxRFCVVCGR .yrrfvvg rgrcy.rr .c yrrfvvg .CYRGIFVG an th..emnlaidtdfrsteeoweenXi *ar x is.Hr oe aelter ersn -m cd an lie bewe n eiue ersn iufd linkges
7. Th copon ofCam2Ihri n fsi diulidgr de linsycrrranfcvvcgr ins 13 46
8. The compound of Claim 7 which is selected from the group consisting of: R-G-G--C-R-L-Y-C-R IR R-C-G-V-V-C- R-G--G-C-R-L-Y-C-R R R-C -G-V--C-F R-G-G-C-G-L-Y-C-R R R-C-G-v-v-C-F R-G-G--C-R-L-Y-C-R R-C-G-V-V-U- R-G-G-C-R-V-Y-C-R R 01 R-C-G-I-V-C-F 0*0** K-G-G-C-R-I-Y-C-R R C-G-I-v-- 0 R-G-G-C-X-L-Y-C-X R IR R-C-G- I-V-C- R-G-G-C-R-V-Y-C-R Ix R-C-G--V-V--C-F R-G-G-C-R-L-Y-C-R R-G-G-C-R-L-Y-C-R Ix IR R-C-A-V-V-C-Y R-G-S-C-G-L-Y-C-R I R K R-C-G-V-V-C- R-A-T-C-R- I-F-C-R R R-G-G-C-K-V-Y-C-R R-A-T-C-R- I-F-C-r I R R-G-G-C-K-V-Y-C-R R-C-G-V-V-C-
9-c r 1- r-g-g-c-r-l-y-c-r r r rc-g-v-v--c- f r-g-g-c-r-l-y-c-r r-g-gc-r--y-cr r c-g-v-i-c-f 48 r-g-g-c-r-1-y-c-r r-c-g-v--f-c-i R-G-G-C-L-R-Y-C-R I I p I R R-C-V-R-V-C-F R-G-V-C-L-R-Y-C-R G I R R-R-G-V-C-L-R-Y-C-R I G R RWR-F-C-L-R-V-C-F *I I G I I R R-L-C-L-R-V-C-F R-G-W-R-V-C-L-K-Y-C-R I G R R-G-G-R-V-C-L-R-Y-C-R I G 1K R-G-G-C-L-R-Y-C-R R R-G-G-C-R-L-Y-C-R I R R-G-V-C-L-R-Y-C-R R-C-L-R-V-C-F 49 R-G-R-V-C-L-R-Y-C-R I G I R R-F-C-L-R-V-C-F R-W-R-V-C-L-R-Y-C-R IR. R-L-C-L-R-V-C-P R-G-W-R-V-C-L-K-Y-C-R R-G-G-R-V-C-L-R-Y-C-R I G I R R---LRV-- R-G-G-C-R-L-Y-C-R and the C-terminal amidated forms thereof, wherein X is :Har, x is D-Har, lower case letters represent D-amino acids and lines between C or c residues represent disulfide linkages. The compound of Claim 1 which comprises one disulfide bridge. The compound of Claim 9 in which said disulfide bridge links
11. The compound of Claim 10 which is selected from the group consisting of: R-G-G-C--L-R-Y-A-V I P I R R-C-V-R-V-A- F R-G-G-C-L-R-Y-T-K p K R-C-V-R-V-T-F R-G-G-C-L-R-Y-A-V G R R-C-V-R-V-A-F R-G-G-C-X-L-Y-A-X R R R-C-G--V-V-S-F R-G-G-C-L-R-Y-A-R z R R-C-V-R-V-A-F R-G-F-C-L-R-Y-T-V I R. R-v-C-F-R-V-T-F R-G-F-C-L-R-Y-K-V G R R-v-C-F-R-V-K-F R-G-F-C-L-R-Y- Z-V G R-V-C-F-R-V-Z-F R-G-G-C-L-R-Y-A-R I9 z R-C-V-R-V-A-F .9 R-G-G-C-L-R-Y-A-V G R-V-A-F and the C-terminal amidated forms thereof, wherein X is Har, Z is MeGly and lines between C residues represent disulfide linkages.
12. The compound of Claim 9 in which said disulfide bridge links C 5 -C 1 6
13. The compound of Claim 12 which is selected from the group consisting of: R-G--G-R-C-L-Y-A-R R R R-G-C-V-V-A- F R-G-G-R-C-L-Y-A-R R R CV-I-S- F R-G-G-G-C-L-Y-S-R R R R-G-C-V-V-A-F R-G-G-R-C-L-Y-A-R R R C-V-V-C-F ft.:.K-G-G-R-C-L-Y-A-R R R-G-G-X-C-L-Y-A-X ft.. SR R R-G-C-V-V-S-F R-G-G-R-C-L-Y-S-R K K 9ftR-G-C-S-V-A-W R-G-G-R-C-L-Y-S-R R R-G-C-I-V-S-Y R-A-T-R-C- I-F-S-R R R-G-C-V-V-S-F R-G-G-K-C-V-Y-G-R x R R-G-C-V-V-S-F R-A-T-R-C- I-F-G-r R R r-G-C-V-V-G-F R-G-G-K-C-V-Y-L-R x R R-G-C-V-V-L-F 52 R-G-G-R-C-V-F-L-R P R R-G-C-V-V-G-I and the C-terminal amidated forms thereof, wherein X is Har, x is D-Har, lower case letters represent D-amino acids and lines between C residues represent disulfide linkages.
14. The compound of Claim 9 in which the disulfide bridge links C, and C 13 The compound of Claim 1 which is in the linear form. A 16. The compound of Claim 1 in which at least one of A 1 S A 2 A3, or C 4 is not present. i. .17. The compound Claim 1 in which A, A 2 and A 3 are not S present.
18. The compound of Claim 1 in which at least one of Al, A 2 or A 3 is a hydrophobic amino acid.
19. The compound of Claim 1 in which each of C s and C16 is independently selected from the group consisting of cysteine, homocysteine, penicillamine, I, V, L, NLe, W, Y, F, A, S, G and T. The compound of Claim 1 in which each of C 4 and C17 is independently selected from the group consisting of cysteine, homocysteine, penicillamine, I, V, L, NLe, W, Y, F, A, S, G and T.
21. The compound of Claim 1 in which each of A 7 and is independently selected from the group consisting of I, V, L, NLe, W, Y, F, A, S, G and T.
22. The compound of Claim 1 in which one of A 9 or A 12 is R, K, Har, Orn or H and the other is I, V, L, NLe, W, Y, F, A, S, G or T.
23. The compound of Claim 1 in which A, and A 4 are each independently a hydrophobic amino acid.
24. The compound of Claim 1 in which A 9 or A 12 is a hydrophobic amino acid or a small amino acid. The compound of Claim 1 in which A 10 and A, 1 are each independently selected from the group consisting of proline, a basic amino acid, a hydrophobic amino acid and a small amino acid.
26. The compound of Claim 1 in which Ag-Al 0 -All-A 12 is selected from the group consisting of: R-R-R-F, R-G-W-I, R-P- R-F, X-R-R-F, R-X-RF, R-K-K-W, R-X-R-Y, R-R-K-W, r-R-R-F, R-x-R-F, R-G-R-F, C-R-G-R, Y-C-G-R, V-P-R-F, K-P-K-F, V-G-R-F, R-P-R-I and R-Z-R-F, where X is Har, x is D-Har, Z is MeGly S and r is D-Arg.
27. The compound of Claim 1 which is in the linear or S disulfide-bridged form and which is selected from the group consisting of: RGGRCLYCRRRFCVVCGR RGGCRLYCRRRFCWGCR RGGRCLYCRRRFCIVCG RGGCRLYCRRRFCIVGC RGGGCLYCRRRFCVVCGR RGGCGLYCRRRFCVVGCR RGGRCLYCRGWICFVCGR RGGCRLYCRGWICFVGCR RGGRCLYCRPRFCVVCGR RGGCRLYCRPRFCVVGCR RGGRCVYCRRRFCVVCG RGGCRVYCRRRFCVIGC KGGRCLYCRRRFCVVCG KGGCRIYCRRRFCVIGC RGGXCLYCRRRFCVVC RGGCXLYCRRRFCVI C RGGXCLYCXRRFCVVCGR RGGCXLYCXRRFCVIGCR RGGRCVYCRXRFCVVCGR RGGCRVYCRXRFCVVGCR RGGRCLYCRKKWCVVCGR RGGCRLYCRKKWCVVGCR RGGRCLYCRXRYCVVCGR RGGCRLYCRXRYCVVACR RGSGCLYCRRKWCVVCGR ROS CGLYCRRKWCVVGCR RATRCI FCRRRFCVVCGR RATCRI FCRRRFCVIGCR RGGKCVYCRXRFCVVCGR RGGCKVYCRXRFCVIGCR RATRCI FCrRRFCVVCGr RATCRI FCrRRFCVVGCr RGGKCVYCRxRFCVVCGR RGGCKVYCRxRFCVVGCR rggrc lycrrrfcvvcgr rggcrlycrrrf cvvgc r rggrc lycrrrfcivcg rggcrlycrrrfc ivgc rgggc lycrrrfcvvcgr rggcglycrrrf cvvgc r rggrc lycrgwic fvcgr rggcrlycrgwic fvgcr RGGCLRYCRPRFCVRVCR RGGCRLYCRRRFCVVGCR RGVCLRYCRGRFCVRLCR RGRVCLRYCRGRFCVRLCFR RWRVCLRYCRGRFCVRLCLR RGWRVCLKYCRGRF CVKLCLR RGGRVCLRYCRGKFCVRLCLR RGGRCLYARRRFAVVCGR RGGRCLYARRRFS IVC RGGGCLYSRRRFAVVCGR RGGRCLYARRRFGVVC KGGRCLYVRRRF IVVC RGGXCLYARRRFVGCV RGGXCLYAXRRFSVVCR RGGCXLYAXRRFSXTVGCR RGGRCVYVRXRFLVCVGR RGGRCLYSRKKWAVS CGR RGGRCLYSRXRYSVI CGR RGSGC IYCRRKWGVVGCR RATRC IFSRRRFSVVCGR 4 RGGKCVYGRXRFSVVCGR RATRC IFGrRRFGVVCGr RGGKCVYLRxRFLVVCGR RGGRCVFLRPRIGVVCGR RGGCLRYAVPRFAVRVCR RGGCLRYTKPKFTVRVCR RGGCLRYAVGRFAVRVCR RGGCLRYARZRFAVRVCR RGFCLRYTVPRFTVRFCVR RGFCLRYKVGRFKVRFCVR RGFCLRYZVGRFZVRFCVR RGGCLRYARZRFAVRVCR RGGCLRYAVGRFAVRVCR RGGRCLYCRRRFCVVGCR RGGCRLYCRRRFCVVCGR RGGRCLYCRRRFCVCVGR RGGCRLYCRRRFCVCVGR RGGRLCYCRRRFCVVCGR RGGRLCYCRRRFCVGCR RGGCRLYCRRRFCVGC RGGRCLYCRRRFCVVGC RGGCRLYCRRRFCVCG RGGRCLYCRRRFCVCVG RGGCRLYCRRRFCVCVG RGGRLCYCRRRFCVCG RGGRLCYCRRRFCVVGC RGGGCLYCRRRFCVVGCR RGGGCLYCRRRFCVCVGR RGGCGLYCRRRFCVCVGR RGGGLCYCRRRFCVVCGR S: RGGGLCYCRRRFCVVGCR and the C-terminal amidated and N-terminal acylated forms i thereof, wherein X is Har, x is D-Har, Z is MeGly and lower case letters represent D-amino acids.
28. The compound of any one of Claims 1-27 in which all amino acids are in the D-configuration. So
29. A pharmaceutical composition comprising a compound according to any one of Claims 1-28 and a pharmaceutically acceptable excipient. S
30. A composition for application to plants or plant environments comprising a compound according to any one of Claims 1-28 and an environmentally acceptable diluent.
31. A nucleic acid encoding a peptide according to any one of Claims 1-27 which is wholly composed of gene-encoded amino acids.
32. An expression system for producing a peptide according to any one of Claims 1-27 which is wholly composed of gene-encoded amino acids, comprising a nucleic acid encoding said peptide operabaly linked to a control sequence for effecting expression.
33. A host cell comprising the expression system of Claim 32, or progeny thereof.
34. A method of producing an antimicrobial peptide which is composed wholly of gene-encoded amino acids, comprising the steps of: culturing the host cell or progeny of Claim 33 under conditions wherein said peptide is produced; and (ii) recovering the peptide from the culture.
35. The method of Claim 33 which further comprises the step of effecting disulfide linkages of the peptide. 0*
36. The method of Claim 33 which further comprises the step of amidating the C-terminus of the peptide or acylating the N-terminus of the peptide. .9 .9
37. A method of inhibiting the growth of a microbe or S: the replication of a virus which comprises the step of contacting said virus or said microbe with an amount of a compound according to any one of Claims 1-28 effective to inhibit said growth or said replication.
38. The method of Claim 37 in which the microbe is a bacteria.
39. The method of Claim 38 in which the bacteria is selected from the group consisting of E. coli, L. monocytogenes, B. subtilis, S. typhimurium, S. aureus, P. aeruginosa and H. pylori. f\L% FN^IS The method of Claim 37 in which the microbe or virus is a sexually-transmitted microbe or virus.
41. The method of Clairf 40 in which the sexually- transmitted microbe or virus is selected from the group consisting of HIV-1, C. trachomatis, T. pallidum, N. gonorrhoeae, T. vaginalis, HSV-1, HSV-2, H. ducreyi and human papilloma virus.
42. The method of Claim 38 in which the microbe or virus is HIV.
43. The method of Claim 38 in which the microbe or virus is methicillin-resistant S. aureus (MRSA) or vancomycin- resistant E. faecalis (VREF).
44. A method to inactivate the endotoxin of gram- negative bacteria, which method comprises contacting said endotoxin with an amount of a compound according to any one of Claims 1-28 effective to inactivate said endotoxin. So 45. A method to treat or prevent a microbial or viral infection in a subject, which method comprises administering S: to a subject in need of such treatment an effective amount of a compound according to any one of Claims 1-28.
46. The method of Claim 45 in which the infection is a bacterial infection.
47. The method of Claim 46 in which the bacteria is selected from the group consisting of E. Coli, L. monocytogenes, B. subtilis, S. typhimurium, S. aureus, P. aeruginosa and H. pylori. 59
48. The method of Claim 45 in which the infection is caused by a sexually-transmitted pathogen.
49. The method of Claim 48 in which the sexually- transmitted pathogen is selected from the group consisting of HIV-1, C. trachomatis, T. pallidum, N. gonorrhoeae, T. vaginalis, HSV-1, HSV-2, H. ducreyi and human papilloma virus. The method of Claim 45 in which the infection is an HIV infection.
51. The method of Claim 45 in which the infection is a go,: methicillin-resistant S. aureus (MRSA) or vancomycin-resistant E. faecalis (VREF) infection.
52. The method of Claim 45 in which the compound is administered topically. 6
53. The method of Claim 45 in which the compound is administered prophylactically. 6**
54. An antibody specifically reactive with a compound according to any one of Claims 1-28. S Use of a compound according to any one of claims 1 to 28 for the preparation of a medicament for the treatment of viral infection.
56. Use of a compound according to any one of claims 1 to 28 for the preparation of a medicament for the prevention of viral infection.
57. Use of a compound according to another aspect of claim 1 to 28 for the preparation of a medicament for the treatment of microbial infection.
58. Use of a compound according to any one of claims 1 to 28 for the preparation of a medicament for the prevention of microbial infection.
59. A compound according to claim 1 substantially as hereinbefore described with reference to any of the examples. A method according to claim 37 or claim 44 substantially as hereinbefore described with reference to any of the examples. 9 DATED: 20 August, 1998 15 PHILLIPS ORMONDE FITZPATRICK Attorneys for: .L INTRABIOTICS PHARMACEUTICALS, INCORPORATED C:\WINWORD\KATEAKATE\NKRNODELETE\P64529 DOC
Applications Claiming Priority (3)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US89895P | 1995-07-06 | 1995-07-06 | |
| US60/000898 | 1995-07-06 | ||
| PCT/US1996/011323 WO1997002287A1 (en) | 1995-07-06 | 1996-07-03 | Parevins and tachytegrins |
Publications (3)
| Publication Number | Publication Date |
|---|---|
| AU6452996A AU6452996A (en) | 1997-02-05 |
| AU714294B2 true AU714294B2 (en) | 1999-12-23 |
| AU714294C AU714294C (en) | 2000-09-07 |
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Also Published As
| Publication number | Publication date |
|---|---|
| WO1997002287A1 (en) | 1997-01-23 |
| CA2226121A1 (en) | 1997-01-23 |
| AU6452996A (en) | 1997-02-05 |
| EP0836617A1 (en) | 1998-04-22 |
| JPH11509842A (en) | 1999-08-31 |
| EP0836617A4 (en) | 2000-06-28 |
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