Molecular Docking-Based Screening for Novel Inhibitors of the Human Immunodeficiency Virus Type 1 Protease that Effectively Reduce the Viral Replication in Human Cells.

Journal of AIDS & clinical research Pub Date : 2021-01-01 Epub Date: 2021-05-21

Carla Mavian, Roxana M Coman, Xinrui Zhang, Steve Pomeroy, David A Ostrov, Ben M Dunn, John W Sleasman, Maureen M Goodenow

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Abstract

Therapeutic pressure by protease inhibitors (PIs) contributes to accumulation of mutations in the HIV type 1 (HIV-1) protease (PR) leading to development of drug resistance with subsequent therapy failure. Current PIs target the active site of PR in a competitive manner. Identification of molecules that exploit non-active site mechanisms of inhibition is essential to overcome resistance to current PIs. Potential non-active site HIV-1 protease (PR) inhibitors (PI) were identified by in silico screening of almost 140,000 molecules targeting the hinge region of PR. Inhibitory activity of best docking compounds was tested in an in vitro PR inhibition biochemical assay. Five compounds inhibited PR from multiple HIV-1 sub-types in vitro and reduced replicative capacity by PI-sensitive or multi-PI resistant HIV-1 variants in human cells ex vivo. Antiviral activity was boosted when combined with Ritonavir, potentially diminishing development of drug resistance, while providing effective treatment for drug resistant HIV-1 variants.

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基于分子对接的人类免疫缺陷病毒1型蛋白酶新抑制剂筛选，有效减少病毒在人类细胞中的复制。

蛋白酶抑制剂(pi)的治疗压力有助于HIV-1型(HIV-1)蛋白酶(PR)突变的积累，导致耐药性的发展和随后的治疗失败。目前的pi以竞争的方式瞄准PR的活性位点。鉴定利用非活性位点抑制机制的分子对于克服对当前pi的抗性至关重要。通过计算机筛选近14万个靶向HIV-1蛋白酶(PR)铰链区的分子，确定了潜在的非活性位点HIV-1蛋白酶(PR)抑制剂(PI)，并通过体外PR抑制生化实验测试了最佳对接化合物的抑制活性。五种化合物在体外抑制多种HIV-1亚型的PR，并在体外降低pi敏感或多重pi耐药的HIV-1变异在人细胞中的复制能力。当与利托那韦联合使用时，抗病毒活性得到增强，潜在地减少了耐药性的发展，同时为耐药HIV-1变体提供了有效的治疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of AIDS & clinical research

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