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通过自由能微扰计算预测非肽类HIV蛋白酶抑制剂的相对结合亲和力。

Predicting relative binding affinities of non-peptide HIV protease inhibitors with free energy perturbation calculations.

作者信息

McCarrick M A, Kollman P A

机构信息

University of California at San Francisco 94143-0446, USA.

出版信息

J Comput Aided Mol Des. 1999 Mar;13(2):109-21. doi: 10.1023/a:1008044721715.

DOI:10.1023/a:1008044721715
PMID:10091118
Abstract

The relative binding free energies in HIV protease of haloperidol thioketal (THK) and three of its derivatives were examined with free energy calculations. THK is a weak inhibitor (IC50 = 15 microM) for which two cocrystal structures with HIV type 1 proteases have been solved [Rutenber, E. et al., J. Biol. Chem., 268 (1993) 15343]. A THK derivative with a phenyl group on C2 of the piperidine ring was expected to be a poor inhibitor based on experiments with haloperidol ketal and its 2-phenyl derivative (Caldera, P., personal communication). Our calculations predict that a 5-phenyl THK derivative, suggested based on examination of the crystal structure, will bind significantly better than THK. Although there are large error bars as estimated from hysteresis, the calculations predict that the 5-phenyl substituent is clearly favored over the 2-phenyl derivative as well as the parent compound. The unfavorable free energies of solvation of both phenyl THK derivatives relative to the parent compound contributed to their predicted binding free energies. In a third simulation, the change in binding free energy for 5-benzyl THK relative to THK was calculated. Although this derivative has a lower free energy in the protein, its decreased free energy of solvation increases the predicted delta delta G (bind) to the same range as that of the 2-phenyl derivative.

摘要

通过自由能计算研究了氟哌啶醇硫缩酮(THK)及其三种衍生物在HIV蛋白酶中的相对结合自由能。THK是一种弱抑制剂(IC50 = 15 microM),已解析出其与1型HIV蛋白酶的两种共晶体结构[Rutenber,E.等人,《生物化学杂志》,268(1993)15343]。基于氟哌啶醇缩酮及其2-苯基衍生物的实验(Caldera,P.,个人交流),预计哌啶环C2上带有苯基的THK衍生物是一种较差的抑制剂。我们的计算预测,基于晶体结构分析提出的5-苯基THK衍生物的结合能力将明显优于THK。尽管根据滞后现象估计存在较大的误差范围,但计算预测5-苯基取代基明显优于2-苯基衍生物以及母体化合物。两种苯基THK衍生物相对于母体化合物的不利溶剂化自由能对其预测的结合自由能有影响。在第三次模拟中,计算了5-苄基THK相对于THK的结合自由能变化。尽管该衍生物在蛋白质中的自由能较低,但其降低的溶剂化自由能使预测的ΔΔG(结合)增加到与2-苯基衍生物相同的范围。

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