特定亚型的HIV-1蛋白酶以及铰链区和瓣区动力学在耐药性中的作用：C亚型的阐述

Subtype-Specific HIV-1 Protease and the Role of Hinge and Flap Dynamics in Drug Resistance: A Subtype C Narrative.

作者信息

Sherry Dean, Sheik Ismail Zaahida, Mokhantso Tshele, Sayed Yasien

机构信息

Protein Structure-Function Research Laboratory, University of the Witwatersrand, Johannesburg 2000, South Africa.

出版信息

Viruses. 2025 Jul 26;17(8):1044. doi: 10.3390/v17081044.

DOI:10.3390/v17081044

PMID:40872759

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12390352/

Abstract

The HIV-1 aspartic protease is an effective target for the treatment of HIV/AIDS. Current therapy utilizes a selection of nine protease inhibitors (PIs) in combination with other classes of antiretroviral drugs. Although PIs were originally developed based on the knowledge of the HIV-1 subtype B protease, the existence of other HIV-1 subtypes and the effects of drug resistance on currently available PIs have become a major challenge in the treatment of HIV/AIDS. Specifically, the HIV-1 subtype C accounts for more than half of the global HIV infections. Considering the importance and relevance of the subtype C virus, in this timely review we discuss the effect of polymorphisms in the HIV-1 subtype C protease on drug resistance, flap flexibility, and hinge region dynamics. We discuss novel paradigms of protease inhibition that attempt to overcome the limitations of currently available inhibitors which fall short considering genetic diversity and resistance mutations.

摘要

HIV-1天冬氨酸蛋白酶是治疗HIV/AIDS的有效靶点。目前的治疗方案是选用9种蛋白酶抑制剂（PIs）与其他类抗逆转录病毒药物联合使用。尽管PIs最初是基于对HIV-1 B亚型蛋白酶的了解而研发的，但其他HIV-1亚型的存在以及耐药性对现有PIs的影响已成为治疗HIV/AIDS的一大挑战。具体而言，HIV-1 C亚型占全球HIV感染的一半以上。鉴于C亚型病毒的重要性和相关性，在本次及时的综述中，我们讨论了HIV-1 C亚型蛋白酶多态性对耐药性、瓣片灵活性和铰链区动力学的影响。我们还讨论了蛋白酶抑制的新范式，这些范式试图克服现有抑制剂在面对基因多样性和耐药突变时存在的局限性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d1d/12390352/fc9b24d74ea7/viruses-17-01044-g001.jpg

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特定亚型的HIV-1蛋白酶以及铰链区和瓣区动力学在耐药性中的作用：C亚型的阐述

Subtype-Specific HIV-1 Protease and the Role of Hinge and Flap Dynamics in Drug Resistance: A Subtype C Narrative.

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