Literature DB >> 21821879

In silico identification and crystal structure validation of caspase-3 inhibitors without a P1 aspartic acid moiety.

Rajkumar Ganesan1, Stjepan Jelakovic, Peer R E Mittl, Amedeo Caflisch, Markus G Grütter.   

Abstract

Using a fragment-based docking procedure, several small-molecule inhibitors of caspase-3 were identified and tested and the crystal structures of three inhibitor complexes were determined. The crystal structures revealed that one inhibitor (NSC 18508) occupies only the S1 subsite, while two other inhibitors (NSC 89167 and NSC 251810) bind only to the prime part of the substrate-binding site. One of the major conformational changes observed in all three caspase-3-inhibitor complexes is a rotation of the Tyr204 side chain, which blocks the S2 subsite. In addition, the structural variability of the residues shaping the S1-S4 as well as the S1' subsites supports an induced-fit mechanism for the binding of the inhibitors in the active site. The high-resolution crystal structures reported here provide novel insights into the architecture of the substrate-binding site, which might be useful for the design of more potent caspase inhibitors.

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Year:  2011        PMID: 21821879      PMCID: PMC3151112          DOI: 10.1107/S1744309111018604

Source DB:  PubMed          Journal:  Acta Crystallogr Sect F Struct Biol Cryst Commun        ISSN: 1744-3091


  34 in total

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2.  Fragment-Based flexible ligand docking by evolutionary optimization.

Authors:  N Budin; N Majeux; A Caflisch
Journal:  Biol Chem       Date:  2001-09       Impact factor: 3.915

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4.  Automated docking of highly flexible ligands by genetic algorithms: a critical assessment.

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Journal:  J Comput Chem       Date:  2004-02       Impact factor: 3.376

5.  In situ assembly of enzyme inhibitors using extended tethering.

Authors:  Daniel A Erlanson; Joni W Lam; Christian Wiesmann; Tinh N Luong; Robert L Simmons; Warren L DeLano; Ingrid C Choong; Matthew T Burdett; W Michael Flanagan; Dennis Lee; Eric M Gordon; Tom O'Brien
Journal:  Nat Biotechnol       Date:  2003-02-03       Impact factor: 54.908

6.  Structure-based thermodynamic analysis of caspases reveals key residues for dimerization and activity.

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Authors:  M G Grütter
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8.  Studies of the molecular mechanism of caspase-8 activation by solution NMR.

Authors:  N Keller; M G Grütter; O Zerbe
Journal:  Cell Death Differ       Date:  2009-10-23       Impact factor: 15.828

9.  Crystal structure of caspase-2, apical initiator of the intrinsic apoptotic pathway.

Authors:  Andreas Schweizer; Christophe Briand; Markus G Grutter
Journal:  J Biol Chem       Date:  2003-08-14       Impact factor: 5.157

10.  Overview of the CCP4 suite and current developments.

Authors:  Martyn D Winn; Charles C Ballard; Kevin D Cowtan; Eleanor J Dodson; Paul Emsley; Phil R Evans; Ronan M Keegan; Eugene B Krissinel; Andrew G W Leslie; Airlie McCoy; Stuart J McNicholas; Garib N Murshudov; Navraj S Pannu; Elizabeth A Potterton; Harold R Powell; Randy J Read; Alexei Vagin; Keith S Wilson
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2011-03-18
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3.  Eliminating caspase-7 and cathepsin B cross-reactivity on fluorogenic caspase-3 substrates.

Authors:  Martha Mackay; Ana M Pérez-López; Mark Bradley; Annamaria Lilienkampf
Journal:  Mol Biosyst       Date:  2016-03

4.  Oncoglabrinol C, a new flavan from Oncocalyx glabratus protects endothelial cells against oxidative stress and apoptosis, and modulates hepatic CYP3A4 activity.

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5.  The anti-hepatitis B virus and anti-hepatotoxic efficacies of solanopubamine, a rare alkaloid from Solanum schimperianum.

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6.  Apoptosis-mediated antiproliferation of A549 lung cancer cells mediated by Eugenia aquea leaf compound 2',4'-dihydroxy-6'-methoxy-3',5'-dimethylchalcone and its molecular interaction with caspase receptor in molecular docking simulation.

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