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利用配体导向的同源建模、反应驱动的骨架跳跃和从头设计工作流程优化丙型肝炎病毒4型NS5B聚合酶的苯并异噻唑二氧化物抑制活性。

Optimization of Benzoisothiazole dioxide inhibitory activity of the NS5B polymerase of HCV genotype 4 using ligand-steered homological modeling, reaction-driven scaffold-hopping and Enovo workflow.

作者信息

Mahmoud Amr Hamed, Mohamed Abouzid Khaled Abouzid, El Ella Dalal Abd El Rahman Abou, Hamid Ismail Mohamed Abdel

机构信息

Department of Pharmaceutical Chemistry, Faculty of Pharmacy, Ain Shams University, Cairo 11566, Egypt.

出版信息

Bioinformation. 2011;7(7):328-33. doi: 10.6026/97320630007328. Epub 2011 Dec 10.

Abstract

Infection caused by hepatitis C virus (HCV) is a significant world health problem for which novel therapies are in urgent demand. The virus is highly prevalent in the Middle East and Africa particularly Egypt with more than 90% of infections due to genotype 4. Nonstructural (NS5B) viral proteins have emerged as an attractive target for HCV antivirals discovery. A potent class of inhibitors having benzisothiazole dioxide scaffold has been identified on this target, however they were mainly active on genotype 1 while exhibiting much lowered activity on other genotypes due to the high degree of mutation of its binding site. Based on this fact, we employed a novel strategy to optimize this class on genotype 4. This strategy depends on using a refined ligand-steered homological model of this genotype to study the mutation binding energies of the binding site amino acid residues, the essential features for interaction and provide a structure-based pharmacophore model that can aid optimization. This model was applied on a focused library which was generated using a reaction-driven scaffold-hopping strategy. The hits retrieved were subjected to Enovo pipeline pilot optimization workflow that employs R-group enumeration, core-constrained protein docking using modified CDOCKER and finally ranking of poses using an accurate molecular mechanics generalized Born with surface area method.

摘要

丙型肝炎病毒(HCV)引起的感染是一个重大的全球健康问题,迫切需要新的治疗方法。该病毒在中东和非洲尤其是埃及高度流行,超过90%的感染是由4型基因型引起的。非结构(NS5B)病毒蛋白已成为HCV抗病毒药物研发的一个有吸引力的靶点。已经在这个靶点上鉴定出一类具有苯并异噻唑二氧化物骨架的强效抑制剂,然而它们主要对1型基因型有活性,而由于其结合位点的高度突变,对其他基因型的活性则大大降低。基于这一事实,我们采用了一种新的策略来优化该类药物在4型基因型上的活性。该策略依赖于使用该基因型的精细配体导向同源模型来研究结合位点氨基酸残基的突变结合能、相互作用的基本特征,并提供一个基于结构的药效团模型,以帮助进行优化。该模型应用于一个通过反应驱动的骨架跳跃策略生成的聚焦文库。检索到的命中化合物经过Enovo管道试点优化工作流程,该流程采用R基团枚举、使用改良的CDOCKER进行核心约束蛋白对接,最后使用精确的分子力学广义玻恩表面积方法对构象进行排序。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7b57/3280486/1cc3d56dfbd5/97320630007328F1.jpg

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