The present invention relates to p21 derived peptides capable of inhibiting CDK/cyclin complexes, particularly cyclins A or E/CDK2, by modifying the interaction with their substrates. The peptides are derived from a C-terminal region of p21 and display selectivity for cyclin/CDK2 inhibition over cyc
The present invention relates to p21 derived peptides capable of inhibiting CDK/cyclin complexes, particularly cyclins A or E/CDK2, by modifying the interaction with their substrates. The peptides are derived from a C-terminal region of p21 and display selectivity for cyclin/CDK2 inhibition over cyclin/CDK4 inhibition. Variants of such peptides particularly involving certain alanine replacements are shown to be particularly potent.
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1. A peptide of formula VI, A-(B)m-C-(D)n-E(VI)??(SEQ ID No. 460), wherein m and n are each independently 0 or 1; A is a natural or unnatural amino acid residue having a side chain comprising at least one H-bond acceptor moiety and at least one H-bond donor moiety; each of B and D is independently a
1. A peptide of formula VI, A-(B)m-C-(D)n-E(VI)??(SEQ ID No. 460), wherein m and n are each independently 0 or 1; A is a natural or unnatural amino acid residue having a side chain comprising at least one H-bond acceptor moiety and at least one H-bond donor moiety; each of B and D is independently an amino acid residue selected from arginine, glycine, citrulline, glutamine, serine, lysine, asparagine, isoleucine and alanine; C is a natural or unnatural amino acid residue having a branched or unbranched C1-C6 alkylene side chain optionally containing a H-bond donor or a H-bond acceptor moiety; and E is a natural or unnatural amino acid residue having an aryl or heteroaryl side chain. 2. A peptide according to claim 1, wherein the H-bond donor moiety is a functional group containing an N?H or O?H group, and the H-bond acceptor moiety is a functional group containing C?O or N. 3. A peptide according to claim 1, wherein C is selected from group consisting of alanine, valine, leucine, β-leucine, β-OH-β-leucine, isoleucine, aspartate, glutamate, asparagine, glutamine, lysine, arginine, serine and threonine. 4. A peptide according to claim 2 wherein C is selected from the group consisting of alanine, valine, leucine, β-leucine, β-OH-β-leucine, isoleucine, aspartate, glutamate, asparagine, glutamine, lysine, arginine, serine and threonine. 5. A peptidomimetic according to claim 1, wherein C is leucine, isoleucine, β-leucine, β-OH-β-leucine, or asparagine. 6. A peptide according to claim 1 wherein B is arginine, citrulline, glutamine, serine, or lysine. 7. A peptide according to claim 1, wherein D is asparagine, isoleucine or alanine. 8. A peptide according to claim 1, wherein A is arginine, glutamine, citrulline. 9. A peptide according to claim 1, wherein E is selected from the group coinsisting of phenylalanine, para-fluorophenylalanine, meta-fluorophenylalanine, ortho-chlorophenylalanine, para-chlorophenylalanine, meta-chorophenylalanine, thienylalanine, N-methylphenylalanine, homophenylalanine (Hof), tyrosine, tryptophan, 1-naphthylalanine (1Nal), 2-naphthylalanine (2Nal), and biphenylalanine (Bip) or (Tic). 10. A peptide according to claim 1, wherein E is phenylalanine, para-fluorophenylalanine, meta-fluorophenylalanine, ortho-chlorophenylalanine, para-chlorophenylalanine, meta-chorophenylalanine, thienylalanine, or N-methylphenylalanine. 11. A variant of a peptide according to any one of claims 3 to 10 wherein: (a) A is unchanged or conservatively substituted; (f) B is substituted by any amino acid capable of providing at least one site for participating in hydrogen bonding; (g) C is unchanged or conservatively substituted; (h) D is unchanged or conservatively substituted; (i) E is unchanged or substituted by any aromatic amino acid. 12. A peptide according to claim 1, wherein m and n are both 1. 13. A peptide according to claim 11, wherein m and n are both 1. 14. A peptide according to claim 1, wherein m is 1 and n is 0. 15. A peptide according to claim 11, wherein m is I and n is 0. 16. A peptide according to claim 1, wherein m is 0 and n is 1. 17. A peptide according to claim 11, wherein m is 0 and n is 1. 18. A peptide according to claim 1, wherein m and n are both 0. 19. A peptide according to claim 11, wherein m and n are both 0. 20. A peptide according to claim 1, wherein the peptide is selected from the group consisting of Com-SEQpoundIDN-C-No.No.terminusterminusVI.1461HArgArgLeuAsnp-F-PheNH2 VI.2462AcArgArgLeuAsnp-F-PheNH2 VI.3463HArgArgIleAsnp-F-PheNH2 VI.4464AcArgArgIleAsnp-F-PheNH2 VI.5377HArgArgLeuIlePheNH2 VI.6465AcArgArgLeuIlePheNH2 VI.7466HArgArgLeuAlap-F-PheNH2 VI.8467AcArgArgLeuAlap-F-PheNH2 VI.9468HGlnArgLeuIlep-F-PheNH2 VI.10469HCitArgLeuIlep-F-PheNH2 VI.11470HArgCitLeuIlep-F-PheNH2 VI.12471HArgGlnLeuIlep-F-PheNH2 VI.13472HGlnSerLeuIlep-F-PheNH2 VI.14473HCitCitLeuIlep-F-PheNH2 VI.15474HCitGlnLeuIlep-F-PheNH2 VI.16475HArgCitLeuAlap-F-PheNH2 VI.17476HArgGlnLeuAlap-F-PheNH2 VI.18477HArgCitLeuAsnp-F-PheNH2 VI.19478HArgGlnLeuAsnp-F-PheNH2 VI.20479HCitCitLeuAsnp-F-PheNH2 VI.21480AcArgArgβ-Leup-F-PheNH2 VI.22481AcArgSerβ-Leup-F-PheNH2 VI.23482AcArgArgβ-Leum-F-PheNH2 VI.24483AcArgSerβ-Leum-F-PheNH2 VI.25484AcArgArgβ-Leuo-Cl-PheNH2 VI.26485AcArgSerβ-Leuo-Cl-PheNH2 VI.27486AcArgArgβ-Leum-Cl-NH2Phe VI.28487AcArgSerβ-Leum-Cl-NH2Phe VI.29488AcArgArgβ-Leup-Cl-PheNH2 VI.30489AcArgArgβ-LeuThiNH2 VI.31490HArgSerβ-Leum-F-PheNH2 VI.32491HArgArgβ-Leup-F-PheNH2 VI.33492HArgArgβ-Leum-F-PheNH2 VI.34493HArgArgβ-Leuo-Cl-PheNH2 VI.35494HArgArgβ-Leum-Cl-NH2Phe VI.36495HArgArgβ-LeuThiNH2 VI.37496HArgSerβ-Leuo-Cl-PheNH2 VI.38497AcArgArgβ-LeuPheNH2 VI.39498AcArgSerβ-LeuPheNH2 VI.40499AcArgArgβ-LeuNMePheNH2 VI.41500AcArgSerβ-LeuNMePheNH2 VI.42501AcLeuAsnp-F-PheNH2 VI.43502HArgArgβ-OH-p-F-PheNH2β-Leu VI.44503HCitCitβ-OH-p-F-PheNH2; andβ-Leu VI.45504AcArgLysbLeuPheGlybwherein bdenotes a carboxamide bond between the Lys ε-amino group and Gly carboxyl group. 21. A peptide according to claim 11, or variant thereof, which is selected from the following: H?ArgArgLeuAsnPheNH2 H?ArgArgLeuAsnpFFNH2 H?ArgArgLeuAsnmClFNH2 H?ArgArgLeuAlapFFNH2 H?ArgArgIleAsnpFFNH2 H?ArgArgIleAlapFFNH2 H?ArgLysLeuAlapFFNH2 H?ArgArgLeuAsnpFFNH2 H?ArgArgIleAsnpFFNH2 H?ArgArgLeuIlepFFNH222. A peptide according to claim 1, wherein the N-terminal is acylated. 23. A peptide according to claim 1, wherein the peptide is (a) modified by substitution of one or more natural or unnatural amino acid residues by the corresponding D-stereomer; (b) a chemical derivative of the peptide; (c) a cyclic peptide derived from the peptide or from a peptide derivative; (d) a dual peptide; (e) a multimer of peptides; (f) any of said peptides in the D-stereomer form; or (g) a peptide in which the order of the final two residues at the C-terminal end is reversed. 24. A pharmaceutical composition comprising a peptide, according to claim 1, wherein the peptide is admixed with a pharmaceutically acceptable diluent excipient or carrier. 25. Use of a peptide defined in claim 1 in the preparation of a medicament for use in (a) inhibition of CDK2 or (b) in the treatment of proliferative disorders such as cancers and leukaemias where inhibition of CDK2 would be beneficial. 26. An assay for identifying candidate substances capable of binding to a cyclin associated with a G1 control CDK enzyme and/or inhibiting said enzyme, comprising; (a) bringing into contact a peptide of claim 1, said cyclin, said CDK and said candidate substance, under conditions wherein, in the absence of the candidate substance being an inhibitor of interaction of the cyclin/CDK interaction, the peptidomimetic would bind to said cyclin; and (b) monitoring any change in the expected binding of the peptide and the cyclin. 27. An assay for the identification of compounds that interact a cyclin or a cyclin when complexed with the physiologically relevant CDK, comprising: (a) incubating a candidate compound and a peptide according to claim 1, or a variant thereof, and a cyclin or cyclin/CDK complex, (b) detecting binding of either the candidate compound or the peptide with the cyclin. 28. An assay according to claim 26 wherein the cyclin is selected from cyclin A, cyclin E or cyclin D. 29. An assay according to claim 27 wherein the cyclin is selected from cyclin A, cyclin E or cyclin D. 30. An assay according to claim 26 wherein the cyclin is cyclin A. 31. An assay according to claim 27 wherein the cyclin is cyclin A. 32. An assay according to claim 26, comprising use of a three dimensional model of a cyclin and a candidate compound. 33. An assay according to claim 27, comprising use of a three dimensional model of a cyclin and a candidate compound. 34. An assay according to claim 26, wherein at least one of the assay components is bound to a solid phase. 35. An assay according to claim 27, wherein at least one of the assay components is bound to a solid phase. 36. An assay according to claim 34, wherein the peptidomimetic is labeled such as to emit a signal when bound to said cyclin. 37. An assay according to claim 35, wherein the peptidomimetic is labeled such as to emit a signal when bound to said cyclin. 38. An assay according to claim 34, wherein the cyclin is labeled such as to emit a signal when bound to the peptide. 39. An assay according to claim 35, wherein the cyclin is labeled such as to emit a signal when bound to the peptide. 40. An assay according to claim 26, wherein one of the assay components is labeled with a fluorescence emitter and the signal is detected using fluorescence polarisation techniques. 41. An assay according to claim 27, wherein one of the assay components is labeled with a fluorescence emitter and the signal is detected using fluorescence polarisation techniques. 42. A method of using a cyclin in a drug screening assay comprising: (a) selecting a candidate compound by performing rational drug design with a three-dimensional model of said cyclin, wherein said selecting is performed in conjunction with computer modeling; (b) contacting the candidate compound with the cyclin; and (c) detecting the binding of the candidate compound for the cyclin groove; wherein a potential drug is selected on the basis of its having a greater affinity for the cyclin groove than that of a peptide according to claim 1. 43. A method according to any of claims 26, 27, 41, or 42, wherein the method of detection comprises monitoring G0 and/or G1/S cell cycle, cell cycle-related apoptosis, suppression of E2F transcription factor, hypophosphorylation of cellular pRb, or in vitro anti-proliferative effects. 44. An assay according to claim 43, wherein the method of detection comprises monitoring G0 and/or G1/S cell cycle, cell cycle-related apoptosis, suppression of E2F transcription factor, hypophosphorylation of cellular pRb, or in vitro anti-proliferative effects. 45. A peptide of formula I, N1DFYHSKRRLIFN2??(formula I) (SEQ ID No. 4), comprising the motif XLXF (SEQ ID No. 11); wherein N1 and N2 are independently a natural or non-natural amino acid or nothing; or the peptide of formula I having up to 8 amino acid residues deleted from the N-terminal end; and variants thereof wherein at least one amino acid residue is replaced by an alternative natural or non-natural replacement amino acid residue, with the proviso that the motif XLXF (SEQ ID No. 11), is retained; wherein X refers to any natural or unnatural amino acid. 46. A peptide of formula, DFYHSKRRLIF??(SEQ ID No. 1), comprising the motif XLXF, or such a peptide: (i) bearing a further amino acid residue at either end; and, (ii) having up to 7 amino acid residues deleted from the N-terminal end; and variants thereof wherein at least one amino acid residue is replaced by an alternative natural or unnatural replacement amino acid residue, with the proviso that the motif XLXF (SEQ ID No. 11) is retained, wherein the peptide of SEQ ID No. 1 is modified by at least one of; deletion, addition or substitution of one or more amino acid residues, or by substitution of one or more natural amino acid residues by the corresponding D-steromer or by a non-natural amino acid residue, chemical derivatives of the peptides, cyclic peptides derived from the peptides or from the peptide derivatives, dual peptides, multimers of the peptides and any of said peptides in the D-stereomer form, or the order of the final two residues at the C-terminal end are reversed. 47. A peptide of the formula, X1X2X3RX4LX5F??(SEQ ID No. 2); wherein X1, X3, X4 and X5 may be amino acid and X2 is serine or alanine; and variants thereof, wherein (a) X1 is deleted or is any amino acid; (b) X2 is serine or alanine or a straight or branched chain amino acid; (c) X3 is a basic amino acid or straight chain aliphatic amino acid; (d) R is unchanged or conservatively substituted by a basic amino acid; (e) X4 is an amino acid that is capable of providing at least one site for participating in hydrogen bonding; (f) L is unchanged or conservatively substituted; (g) X5 is any amino acid; or (h) F is unchanged or substituted by any aromatic amino acid. 48. A peptide of the formula III or IV, H′X2K′R1R2L′X5F??(formula III) (SEQ ID No. 3) or H′X2K′R1R2L′FX5??(formula IV) (SEQ ID No. 189) or a variant thereof, wherein H′ is nothing, His, D-His, Ala, Thi, Hse, Phe, or Dab; X2 is Ala, Ser, Abu, Val; K′ is Lys, Arg, or Abu; R1 is Arg, Lys, or Gln; R2 is Arg, forms a cyclic peptide with the C-terminal residue, Ser, or Cit; L′ is Leu or Ile; X5 is Ile, Leu, Gly, or Ala; and F′ is Phe, para-fluoroPhe, meta-fluoroPhe, L-Psa, 2-Nap,Dhp, or D-Psa. 49. A peptide of formula V, RX6X7X8X9 (SEQ ID No. 293), wherein X6 is arginine, serine or lysine; X7 is leucine, isoleucine or valine; X8 is asparagine, alanine, glycine or isoleucine; and X9 is phenylalanine; or variants thereof. 50. A peptide according of the formula, RX6X7X8X9??(SEQ ID No. 293) or variants thereof, wherein; (a) R is unchanged or conservatively substituted by a basic amino acid; (b) X6 is substituted by any amino acid capable of providing at least one site for participating in hydrogen bonding; (c) X7 is unchanged or conservatively substituted; (d) X8 is unchanged or conservatively substituted; and (e) X9 is unchanged or substituted by any aromatic amino acid. 51. A peptide according to formula V, RX6X7X8X9??(SEQ ID No. 293) or variants thereof, wherein: (a) R is replaced by either a basic residue such as lysine or an uncharged natural or unnatural amino acid residue, such as citrulline (Cit), homoserine, histidine, norleucine (Nle), or glutamine; (b) X6 is replaced by a natural or unnatural amino acid residue such as asparagine, proline, aminoisobutyric acid (Aib) or sarcosine (Sar), or an amino acid residue capable of forming a cyclic linkage such as ornithine; (C) X7 is replaced with a natural or unnatural amino acid residue having a slightly larger aromatic or aliphatic side chain, such as norleucine, norvaline, cyclohexylalanine (Cha), phenylalanine or 1-naphthylalanine (1Nal); (d) X8 is replaced with a natural or unnatural amino acid residue having a slightly larger aromatic or aliphatic side chain, such as norleucine, norvaline, cyclohexylalanine (Cha), phenylalanine or 1-naphthylalanine (1Nal); and (e) X9 is replaced with a natural or unnatural amino acid such as leucine, cyclohexylalanine (Cha), homophenylalanine (Hof), tyrosine, para-fluorophenylalanine (pFPhe), meta-fluorophenylalanine (mFPhe), trptophan, 1-naphthylalanine (1Nal), 2-naphthylalanine (2Nal), meta-chlorophenylalanine (mClPhe),biphenylalanine(Bip) or (Tic).
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