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Indexed by:期刊论文

Date of Publication:2012-08-01

Journal:JOURNAL OF THEORETICAL & COMPUTATIONAL CHEMISTRY

Included Journals:SCIE

Volume:11

Issue:4

Page Number:907-924

ISSN No.:0219-6336

Key Words:Histone deacetylase; selective inhibitor; docking; molecular dynamics

Abstract:Inhibitors of histone deacetylases (HDACs) have become an attractive class of anticancer agent. To understand the interaction between HDAC8 and inhibitors, including "pan-" inhibitors that inhibit many HDACs isoforms and selective inhibitors with no linker domain, docking and molecular dynamics simulation were conducted. Docking results showed the presence of pi-pi interactions between "linkerless" inhibitors and the aromatic amino acid residues of HDAC8 in the active site. Binding between HDAC8 and inhibitors was also stabilized by hydrogen bond and hydrophobic interaction. In molecular dynamics simulations, the zinc ion was shown to coordinate one more atom of HDAC8-"linkerless" inhibitor complexes than HDAC8-"pan-" inhibitor complexes. Persistent hydrogen bonds also existed between Tyr306 of HDAC8 and some inhibitors. When inhibitors with large cap groups bound to the active pocket of HDAC8, Phe152 and Met274 shifted from their initial positions and the entrance of the active pocket became more open, resulting in the formation of sub-pocket. Hydrophobic interactions contributed most favorably to the binding free energy between HDAC8 and inhibitors. Lys33, Asp178, Asp267, Tyr306 and Leu308 of HDAC8 were favorable for binding with all inhibitors.