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基于R155K、A156V、D168A/E突变对丙型肝炎病毒NS3/4A对ITMN-191耐药机制的理解:一项计算研究

Understanding the drug resistance mechanism of hepatitis C virus NS3/4A to ITMN-191 due to R155K, A156V, D168A/E mutations: a computational study.

作者信息

Pan Dabo, Xue Weiwei, Zhang Wenqi, Liu Huanxiang, Yao Xiaojun

机构信息

School of Pharmacy, Lanzhou University, Lanzhou 730000, China.

出版信息

Biochim Biophys Acta. 2012 Oct;1820(10):1526-34. doi: 10.1016/j.bbagen.2012.06.001. Epub 2012 Jun 12.

DOI:10.1016/j.bbagen.2012.06.001
PMID:22698669
Abstract

BACKGROUND

ITMN-191 (RG7227, Danoprevir), as a potential inhibitor of the NS3/4A protease of hepatitis C virus, has been in phase 2 clinical trial. Unfortunately, several ITMN-191 resistance mutants including R155K, A156V, and D168A/E have been identified.

METHODS

Molecular dynamics simulation, binding free energy calculation and per-residue energy decomposition were employed to explore the binding and resistance mechanism of hepatitis C virus NS3/4A protease to ITMN-191.

RESULTS

Based on molecular dynamics simulation and per-residue energy decomposition, the nonpolar energy term was found to be the driving force for ITMN-191 binding. For the studied R155K, A156V, D168A/E mutants, the origin of resistance is mainly from the conformational changes of the S4 and extended S2 binding pocket induced by the studied mutants and further leading to the reduced binding ability to the extended P2 and P4 moieties of ITMN-191.

CONCLUSIONS

Further structural analysis indicates that the destruction of conservative salt bridges between residues 168 and 155 should be responsible for the large conformation changes of the binding pocket in R155K and D168A/E mutants. For A156V mutation, the occurrence of drug resistance is mainly from the changed binding pocket by a replacement of one bulky residue Val.

GENERAL SIGNIFICANCE

The obtained drug resistance mechanism of this study will provide useful guidance for the development of new and effective HCV NS3/4A inhibitors with low resistance.

摘要

背景

ITMN-191(RG7227,达诺普韦)作为一种潜在的丙型肝炎病毒NS3/4A蛋白酶抑制剂,已进入2期临床试验。不幸的是,已鉴定出几种ITMN-191耐药突变体,包括R155K、A156V和D168A/E。

方法

采用分子动力学模拟、结合自由能计算和残基能量分解来探讨丙型肝炎病毒NS3/4A蛋白酶与ITMN-191的结合及耐药机制。

结果

基于分子动力学模拟和残基能量分解,发现非极性能量项是ITMN-191结合的驱动力。对于所研究的R155K、A156V、D168A/E突变体,耐药的起源主要来自所研究突变体诱导的S4和延伸S2结合口袋的构象变化,进而导致与ITMN-191的延伸P2和P4部分的结合能力降低。

结论

进一步的结构分析表明,168位和155位残基之间保守盐桥的破坏应是R155K和D168A/E突变体中结合口袋发生大的构象变化的原因。对于A156V突变,耐药的发生主要是由于一个大体积残基缬氨酸的取代导致结合口袋发生改变。

一般意义

本研究获得的耐药机制将为开发低耐药性的新型有效HCV NS3/4A抑制剂提供有用的指导。

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