Carolyn Chu, Daniele Armenia, Charles Walworth, Maria M Santoro, Robert W Shafer
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Drug-resistance mutations (DRMs) in PBMCs are more likely to coexist with ancestral wild-type virus populations than they are in plasma, explaining why next-generation sequencing is particularly useful for the detection of PBMC-associated DRMs. In patients with ongoing high levels of active virus replication, the DRMs detected in PBMCs and in plasma are usually highly concordant. However, in patients with lower levels of virus replication, it may take several months for plasma virus DRMs to reach detectable levels in PBMCs. This time lag explains why, in patients with VS, PBMC genotypic resistance testing (GRT) is less sensitive than historical plasma virus GRT, if previous episodes of virological failure and emergent DRMs were either not prolonged or not associated with high levels of plasma viremia. Despite the increasing use of PBMC GRT in patients with VS, few studies have examined the predictive value of DRMs on the response to a simplified ART regimen. 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引用次数: 0
摘要
HIV-1 DNA 以非整合的线性和环状外显子形式以及整合的前病毒形式存在。在血浆病毒血症患者中,大多数外周血单核细胞(PBMC)HIV-1 DNA 由最近产生的非整合病毒 DNA 组成,而在接受抗逆转录病毒疗法(ART)长期病毒抑制(VS)的患者中,大多数 PBMC HIV-1 DNA 由几个月到几年前产生的前病毒 DNA 组成。与血浆中的抗药性突变相比,PBMC 中的抗药性突变(DRMs)更有可能与祖先的野生型病毒群共存,这也解释了为什么新一代测序技术特别适用于检测 PBMC 相关的 DRMs。在病毒复制活跃度持续较高的患者中,PBMC 和血浆中检测到的 DRM 通常高度一致。然而,在病毒复制水平较低的患者中,血浆中的病毒 DRMs 可能需要几个月的时间才能达到在 PBMCs 中检测到的水平。这种时间差解释了为什么在 VS 患者中,如果之前的病毒学失败和出现 DRM 的时间不长或与高水平的血浆病毒血症无关,那么 PBMC 基因型耐药性检测(GRT)的灵敏度要低于历史上的血浆病毒 GRT。尽管 VS 患者越来越多地使用 PBMC GRT,但很少有研究探讨 DRM 对简化抗逆转录病毒疗法反应的预测价值。在本综述中,我们总结了目前已知的 PBMC HIV-1 DNA 动态(尤其是在血浆病毒血症受到抑制的患者中)、用于 PBMC HIV-1 GRT 的方法以及临床上使用 PBMC GRT 的情况。
Genotypic Resistance Testing of HIV-1 DNA in Peripheral Blood Mononuclear Cells.
HIV-1 DNA exists in nonintegrated linear and circular episomal forms and as integrated proviruses. In patients with plasma viremia, most peripheral blood mononuclear cell (PBMC) HIV-1 DNA consists of recently produced nonintegrated virus DNA while in patients with prolonged virological suppression (VS) on antiretroviral therapy (ART), most PBMC HIV-1 DNA consists of proviral DNA produced months to years earlier. Drug-resistance mutations (DRMs) in PBMCs are more likely to coexist with ancestral wild-type virus populations than they are in plasma, explaining why next-generation sequencing is particularly useful for the detection of PBMC-associated DRMs. In patients with ongoing high levels of active virus replication, the DRMs detected in PBMCs and in plasma are usually highly concordant. However, in patients with lower levels of virus replication, it may take several months for plasma virus DRMs to reach detectable levels in PBMCs. This time lag explains why, in patients with VS, PBMC genotypic resistance testing (GRT) is less sensitive than historical plasma virus GRT, if previous episodes of virological failure and emergent DRMs were either not prolonged or not associated with high levels of plasma viremia. Despite the increasing use of PBMC GRT in patients with VS, few studies have examined the predictive value of DRMs on the response to a simplified ART regimen. In this review, we summarize what is known about PBMC HIV-1 DNA dynamics, particularly in patients with suppressed plasma viremia, the methods used for PBMC HIV-1 GRT, and the scenarios in which PBMC GRT has been used clinically.
期刊介绍:
Clinical Microbiology Reviews (CMR) is a journal that primarily focuses on clinical microbiology and immunology.It aims to provide readers with up-to-date information on the latest developments in these fields.CMR also presents the current state of knowledge in clinical microbiology and immunology.Additionally, the journal offers balanced and thought-provoking perspectives on controversial issues in these areas.