Phosphinic peptides, the first potent inhibitors of astacin, behave as extremely slow-binding inhibitors.
Irene Yiallouros,Stamatia Vassiliou,Athanasios Yiotakis,Robert Zwilling,Walter Stöcker,Vincent Dive +5 more
TLDR
The phosphinic peptides may provide a rational basis for the design of drugs directed towards other members of the astacin family which, like bone morphogenetic protein 1 (BMP1), have become targets of pharmacological research.Abstract:
A series of phosphinic pseudo-peptides varying in length and composition have been designed as inhibitors of the crayfish zinc endopeptidase astacin, the prototype of the astacin family and of the metzincin superfamily of metalloproteinases. The most efficient phosphinic peptide, fluorenylmethyloxycarbonyl-Pro-Lys-PhePsi(PO2CH2)Ala-P ro-Leu-Val, binds to astacin with a Ki value of 42 nM, which is about three orders of magnitude below the corresponding values for previously used hydroxamic acid derivatives. However, the rate constants for association (kon = 96.8 M-1.s-1) and dissociation (koff = 4.1 x 10(-6) s-1) are evidence for the extremely slow binding behaviour of this compound. N-terminally or C-terminally truncated phosphinic analogues of this parent molecule are much less potent, indicating a critical role of the peptide size on the potency. In particular, omission of the N-terminal proline residue leads to a 40-fold increase in Ki which is mostly due to a 75-fold higher koff value. These findings are consistent with the previously solved crystal structure of astacin complexed with one of the phosphinic peptides, benzyloxycarbonyl-Pro-Lys-PhePsi(PO2CH2)Ala-Pro-O-methyl, Ki = 14 microM [Grams, Dive, Yiotakis, Yiallouros, Vassiliou, Zwilling, Bode and Stocker (1996) Nature Struct. Biol. 3, 671-675]. This structure also reveals that the phosphinic group binds to the active site as a transition-state analogue. The extremely slow binding behaviour of the phosphinic peptides is discussed in the light of the conformational changes involving a unique 'tyrosine switch' in the structure of astacin upon inhibitor binding. The phosphinic peptides may provide a rational basis for the design of drugs directed towards other members of the astacin family which, like bone morphogenetic protein 1 (BMP1; i.e. the procollagen C-proteinase), have become targets of pharmacological research.read more
Citations
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Journal ArticleDOI
A Primary Evaluation of Potential Small-Molecule Inhibitors of the Astacin Metalloproteinase Ovastacin, a Novel Drug Target in Female Infertility Treatment
TL;DR: Small‐molecule inhibitors of ovastacin that could mimic the effect of fetuin‐B are discovered and could be useful lead structures for the development of specific ovastACin inhibitors that can be used in infertility treatment or in vitro fertilization.
Patent
Phosphinate-peptide analogues as inhibitors of procollagen-c-proteinase (pcp) for treating fibrotic diseases
TL;DR: In this article, the use of phosphinate-peptide analogues of general formula (I) as inhibitors of procollagen-C-proteinase (PCP) for treating fibrotic diseases was described.
Book ChapterDOI
Methods for the Construction of Collagen-Based Triple-Helical Peptides Designed as Matrix Metalloproteinase Inhibitors
TL;DR: The present chapter provides methods for the construction of collagen-based triple-helical peptides designed as matrix metalloproteinase inhibitors.
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Matrix Metalloproteinase Triple-Helical Peptide Inhibitors: Potential Cross-Reactivity with Caspase-11.
TL;DR: The effectiveness of GlyΨ{PO2H-CH2}Ile-His-Lys-Gln THPI observed in a sepsis animal model may not be due to caspase-11 inhibition, but may beDue to broader MMP inhibition than previously thought.
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Astacins, serralysins, snake venom and matrix metalloproteinases exhibit identical zinc-binding environments (HEXXHXXGXXH and Met-turn) and topologies and should be grouped into a common family, the 'metzincins'
TL;DR: X‐ray crystal structures of two zinc endopeptidases, astacin from crayfish and adamalysin II from snake venom, reveal a strong overall topological equivalence and virtually identical extended HEXXHXXGXXH zinc‐binding segments, but in addition a methionine‐containing turn of similar conformation (the ‘Met‐turn’), which forms a hydrophobic basis for the zinc ion and the three liganding histidine residues.
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Walter Stöcker,Frank Grams,Ulrich Baumann,Peter Reinemer,F. X. Gomis-Rüth,David B. McKay,Wolfram Bode +6 more
TL;DR: The corresponding four distinct families of zinc peptidases, the astacins, the matrix metalloproteinases (matrixins, collagenases), the adamalysins/reprolysins (snake venom proteinases/reproductive tract proteins), and the serralysins appear to have originated by divergent evolution from a common ancestor and form a superfamily of proteolytic enzymes for which the designation “metzincins” has been proposed.
Journal ArticleDOI
Bone Morphogenetic Protein-1: The Type I Procollagen C-Proteinase
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