2pj9 Citations

Structures of potent selective peptide mimetics bound to carboxypeptidase B.

Adler M, Buckman B, Bryant J, Chang Z, Chu K, Emayan K, Hrvatin P, Islam I, Morser J, Sukovich D, West C, Yuan S, Whitlow M
Acta Crystallogr D Biol Crystallogr 64 149-57 (2008)
Related entries: 2piy, 2piz, 2pj0, 2pj1, 2pj2, 2pj3, 2pj4, 2pj5, 2pj6, 2pj7, 2pj8, 2pja, 2pjb, 2pjc

Cited: 8 times
EuropePMC logo PMID: 18219114

Abstract

This article reports the crystal structures of inhibitors of the functional form of thrombin-activatable fibrinolysis inhibitor (TAFIa). In vivo experiments indicate that selective inhibitors of TAFIa would be useful in the treatment of heart attacks. Since TAFIa rapidly degrades in solution, the homologous protein porcine pancreatic carboxypeptidase B (pp-CpB) was used in these crystallography studies. Both TAFIa and pp-CpB are zinc-based exopeptidases that are specific for basic residues. The final development candidate, BX 528, is a potent inhibitor of TAFIa (2 nM) and has almost no measurable effect on the major selectivity target, carboxypeptidase N. BX 528 was designed to mimic the tripeptide Phe-Val-Lys. A sulfonamide replaces the Phe-Val amide bond and a phosphinate connects the Val and Lys groups. The phosphinate also chelates the active-site zinc. The electrostatic interactions with the protein mimic those of the natural substrate. The primary amine in BX 528 forms a salt bridge to Asp255 at the base of the S1' pocket. The carboxylic acid interacts with Arg145 and the sulfonamide is hydrogen bonded to Arg71. Isopropyl and phenyl groups replace the side chains of Val and Phe, respectively. A series of structures are presented here that illustrate the evolution of BX 528 from thiol-based inhibitors that mimic a free C-terminal arginine. The first step in development was the replacement of the thiol with a phosphinate. This caused a precipitous drop in binding affinity. Potency was reclaimed by extending the inhibitors into the downstream binding sites for the natural substrate.

Reviews citing this publication (5)

  1. Carboxypeptidase U (TAFIa): a new drug target for fibrinolytic therapy? Willemse JL, Heylen E, Nesheim ME, Hendriks DF. J Thromb Haemost 7 1962-1971 (2009)
  2. Carboxypeptidase M: Multiple alliances and unknown partners. Deiteren K, Hendriks D, Scharpé S, Lambeir AM. Clin Chim Acta 399 24-39 (2009)
  3. Progress in metallocarboxypeptidases and their small molecular weight inhibitors. Fernández D, Pallarès I, Vendrell J, Avilés FX. Biochimie 92 1484-1500 (2010)
  4. Carboxypeptidase B2 and carboxypeptidase N in the crosstalk between coagulation, thrombosis, inflammation, and innate immunity. Leung LLK, Morser J. J Thromb Haemost (2018)
  5. Synthesis and modifications of phosphinic dipeptide analogues. Mucha A. Molecules 17 13530-13568 (2012)

Articles citing this publication (3)

  1. Structural and Functional Analysis of the Complex between Citrate and the Zinc Peptidase Carboxypeptidase A. Fernández D, Boix E, Pallarès I, Avilés FX, Vendrell J. Enzyme Res 2011 128676 (2011)
  2. Structural analysis of protein tyrosine phosphatase 1B reveals potentially druggable allosteric binding sites. Kumar AP, Nguyen MN, Verma C, Lukman S. Proteins 86 301-321 (2018)
  3. Three-dimensional structure of carboxypeptidase T from Thermoactinomyces vulgaris in complex with N-BOC-L-leucine. Timofeev VI, Kuznetsov SA, Akparov VKh, Chestukhina GG, Kuranova IP. Biochemistry (Mosc) 78 252-259 (2013)


Related citations provided by authors (2)

  1. Crystal Structures of Potent Thiol-Based Inhibitors Bound to Carboxypeptidase B.. Adler M, Bryant J, Buckman B, Islam I, Larsen B, Finster S, Kent L, May K, Mohan R, Yuan S, Whitlow M Biochemistry 44 9339-9347 (2005)
  2. 3-Mercaptopropionic acids as efficacious inhibitors of activated thrombin activatable fibrinolysis inhibitor (TAFIa).. Islam I, Bryant J, May K, Mohan R, Yuan S, Kent L, Morser J, Zhao L, Vergona R, White K, Adler M, Whitlow M, Buckman BO Bioorg. Med. Chem. Lett. 17 1349-1354 (2007)

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