Resist to persist: resistance of the HIV reservoir to immune-mediated clearance.

IF 4

Current opinion in HIV and AIDS Pub Date : 2025-11-01 Epub Date: 2025-09-18 DOI:10.1097/COH.0000000000000975

Thuong D T Nguyen, Cristina Peligero-Cruz, Beatriz Mothe

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Abstract

Purpose of review: This review examines recent research on the mechanisms underlying resistance to cytotoxic T lymphocyte (CTL)-mediated killing, commonly referred to as 'CTL-resistance', which contributes in the persistence of the HIV-1 reservoir and represents a major barrier to achieving an HIV-1 cure.

Recent findings: Recent discoveries have revealed that the viral reservoir in people with HIV (PWH) in long-term antiretroviral (ART) treatment is enriched within cells exhibiting a pro-survival phenotype, reduced antigen presentation capacity, or intrinsic mechanisms that may directly counteract cytotoxic responses, thereby facilitating immune-killing evasion. Among many others, overexpression of the antiapoptotic protein BCL-2, the pro-survival factor BIRC-5/SURVIVIN and its upstream regulator OX40, the histone methyltransferase EZH-2, or a quiescent metabolic profile with reduced reactive oxygen species production have been described as the most notable mechanisms of CTL-resistance.

Summary: While several advances in HIV therapeutic vaccines have demonstrated its ability to induce strong polyfunctional CTL responses associated with improved viral control, vaccine-induced responses fail to reduce reservoir levels- which might be partially due to a CTL-resistant HIV reservoir able to evade immune-mediated clearance. Strategies aimed at reversing this CTL-resistance or sensitize the HIV-1 reservoir might improve the efficacy of future immunotherapies aimed at achieving a durable ART-free control.

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抵抗持续：HIV病毒库抵抗免疫介导的清除。

综述目的：本文综述了最近关于细胞毒性T淋巴细胞（CTL）介导杀伤的耐药性机制的研究，通常被称为“CTL耐药性”，这有助于HIV-1储存库的持续存在，并代表了实现HIV-1治愈的主要障碍。最近的发现：最近的发现表明，长期抗逆转录病毒（ART）治疗的HIV感染者（PWH）体内的病毒库在细胞内富集，表现出促进生存的表型，降低抗原呈递能力，或可能直接抵消细胞毒性反应的内在机制，从而促进免疫杀伤逃避。抗凋亡蛋白BCL-2、促生存因子BIRC-5/SURVIVIN及其上游调控因子OX40的过表达、组蛋白甲基转移酶EZH-2或活性氧产生减少的静止代谢谱被认为是ctl耐药的最显著机制。摘要：虽然艾滋病毒治疗性疫苗的一些进展已经证明其能够诱导与改善病毒控制相关的强多功能CTL反应，但疫苗诱导的反应未能降低库水平——这可能部分是由于CTL耐药的艾滋病毒库能够逃避免疫介导的清除。旨在逆转这种ctl耐药性或使HIV-1储存库敏感化的策略可能会提高未来旨在实现持久无art控制的免疫疗法的疗效。

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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Current opinion in HIV and AIDS

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