迁移率对基质金属蛋白酶基于结构的药物设计的影响。

Impact of mobility on structure-based drug design for the MMPs.

作者信息

Moy Franklin J, Chanda Pranab K, Chen James, Cosmi Scott, Edris Wade, Levin Jeremy I, Rush Thomas S, Wilhelm James, Powers Robert

机构信息

Department of Biological Chemistry Wyeth Research, 87 Cambridge Park Dr., Massachusetts 02140, USA.

出版信息

J Am Chem Soc. 2002 Oct 30;124(43):12658-9. doi: 10.1021/ja027391x.

DOI:10.1021/ja027391x

PMID:12392402

Abstract

Structure-based approaches for drug design generally do not incorporate solvent effects and dynamic information to predict inhibitor-binding affinity because of practical limitations. The matrix metalloproteinases (MMPs) have previously been demonstrated to exhibit significant mobility in their active sites. This dynamic characteristic significantly complicates the drug design process based on static structures, which was clearly observed for a class of hydroxamic acids containing a butynyl moiety. Compound 1 was expected to be selective against MMP-1 based on predicted steric clashes between the butynyl P1' group and the S1' pocket, but the observation of complex inhibitor dynamics in the NMR structure of MMP-1:1 provides an explanation for the low nanomolar binding to MMP-1.

摘要

由于实际限制，基于结构的药物设计方法通常不纳入溶剂效应和动态信息来预测抑制剂结合亲和力。基质金属蛋白酶（MMPs）此前已被证明在其活性位点表现出显著的流动性。这种动态特性使基于静态结构的药物设计过程显著复杂化，这在一类含有丁炔基部分的异羟肟酸中得到了明显体现。基于丁炔基P1'基团与S1'口袋之间预测的空间冲突，化合物1预计对MMP-1具有选择性，但MMP-1:1的NMR结构中复杂抑制剂动态的观察为其与MMP-1的低纳摩尔结合提供了解释。

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迁移率对基质金属蛋白酶基于结构的药物设计的影响。

Impact of mobility on structure-based drug design for the MMPs.

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