G118R 加上 R263K 整合酶突变组合与基于多替拉韦的治疗失败相关，降低了 HIV-1 的复制能力和整合。

The G118R plus R263K Combination of Integrase Mutations Associated with Dolutegravir-Based Treatment Failure Reduces HIV-1 Replicative Capacity and Integration.

机构信息

McGill AIDS Centre, Lady Davis Institute for Medical Research, Jewish General Hospital, Montréal, Quebec, Canada.

Department of Microbiology and Immunology, Faculty of Medicine, McGill University, Montréal, Quebec, Canada.

出版信息

Antimicrob Agents Chemother. 2023 May 17;67(5):e0138622. doi: 10.1128/aac.01386-22. Epub 2023 Apr 18.

DOI:10.1128/aac.01386-22

PMID:37071019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10190594/

Abstract

Human immunodeficiency virus (HIV) treatment with antiretroviral regimens containing integrase strand transfer inhibitors such as dolutegravir (DTG) and bictegravir (BIC) offers high levels of protection against the development of drug resistance mutations. Despite this, resistance to DTG and BIC can occur through the development of the R263K integrase substitution. Failure with DTG has also been associated with the emergence of the G118R substitution. G118R and R263K are usually found separately but have been reported together in highly treatment-experienced persons who experienced treatment failure with DTG. We used cell-free strand transfer and DNA binding assays and cell-based infectivity, replicative capacity, and resistance assays to characterize the G118R plus R263K combination of integrase mutations. R263K reduced DTG and BIC susceptibility ~2-fold, in agreement with our previous work. Single-cycle infectivity assays showed that G118R and G118R plus R263K conferred ~10-fold resistance to DTG. G118R alone conferred low levels of resistance to BIC (3.9-fold). However, the G118R plus R263K combination conferred high levels of resistance to BIC (33.7-fold), likely precluding the use of BIC after DTG failure with the G118R plus R263K combination. DNA binding, viral infectivity, and replicative capacity of the double mutant were further impaired, compared to single mutants. We propose that impaired fitness helps to explain the scarcity of the G118R plus R263K combination of integrase substitutions in clinical settings and that immunodeficiency likely contributes to its development.

摘要

人类免疫缺陷病毒（HIV）的治疗采用包含整合酶链转移抑制剂（如多替拉韦[DTG]和比克替拉韦[BIC]）的抗逆转录病毒方案，可提供高水平的耐药突变防护。尽管如此，通过整合酶取代 R263K 的发展，仍可能对 DTG 和 BIC 产生耐药性。DTG 治疗失败也与 G118R 取代有关。G118R 和 R263K 通常单独出现，但在经历 DTG 治疗失败的高度治疗经验患者中已报告同时出现。我们使用无细胞链转移和 DNA 结合测定以及基于细胞的感染性、复制能力和耐药性测定来表征整合酶突变的 G118R 加 R263K 组合。R263K 使 DTG 和 BIC 的敏感性降低了约 2 倍，这与我们之前的工作一致。单周期感染性测定表明，G118R 和 G118R 加 R263K 赋予了 DTG 约 10 倍的耐药性。G118R 本身对 BIC 赋予了低水平的耐药性（3.9 倍）。然而，G118R 加 R263K 组合对 BIC 赋予了高水平的耐药性（33.7 倍），这可能使 G118R 加 R263K 组合在 DTG 治疗失败后无法使用 BIC。与单突变体相比，双突变体的 DNA 结合、病毒感染性和复制能力进一步受损。我们提出，适应不良有助于解释整合酶取代的 G118R 加 R263K 组合在临床环境中稀缺的原因，并且免疫缺陷可能有助于其发展。

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