定量深度测序揭示了体内CCR5拮抗剂治疗期间HIV-1的动态逃逸和大量群体变化。

Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo.

作者信息

Tsibris Athe M N, Korber Bette, Arnaout Ramy, Russ Carsten, Lo Chien-Chi, Leitner Thomas, Gaschen Brian, Theiler James, Paredes Roger, Su Zhaohui, Hughes Michael D, Gulick Roy M, Greaves Wayne, Coakley Eoin, Flexner Charles, Nusbaum Chad, Kuritzkes Daniel R

机构信息

Massachusetts General Hospital, Boston, Massachusetts, United States of America.

出版信息

PLoS One. 2009 May 25;4(5):e5683. doi: 10.1371/journal.pone.0005683.

DOI:10.1371/journal.pone.0005683

PMID:19479085

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2682648/

Abstract

High-throughput sequencing platforms provide an approach for detecting rare HIV-1 variants and documenting more fully quasispecies diversity. We applied this technology to the V3 loop-coding region of env in samples collected from 4 chronically HIV-infected subjects in whom CCR5 antagonist (vicriviroc [VVC]) therapy failed. Between 25,000-140,000 amplified sequences were obtained per sample. Profound baseline V3 loop sequence heterogeneity existed; predicted CXCR4-using populations were identified in a largely CCR5-using population. The V3 loop forms associated with subsequent virologic failure, either through CXCR4 use or the emergence of high-level VVC resistance, were present as minor variants at 0.8-2.8% of baseline samples. Extreme, rapid shifts in population frequencies toward these forms occurred, and deep sequencing provided a detailed view of the rapid evolutionary impact of VVC selection. Greater V3 diversity was observed post-selection. This previously unreported degree of V3 loop sequence diversity has implications for viral pathogenesis, vaccine design, and the optimal use of HIV-1 CCR5 antagonists.

摘要

高通量测序平台提供了一种检测罕见HIV-1变异体并更全面记录准种多样性的方法。我们将这项技术应用于从4名慢性HIV感染受试者收集的样本中env基因的V3环编码区，这些受试者的CCR5拮抗剂（维罗考昔[VVC]）治疗失败。每个样本获得了25000 - 140000条扩增序列。基线时V3环序列存在高度异质性；在主要使用CCR5的群体中鉴定出了预测使用CXCR4的群体。与随后病毒学失败相关的V3环形式，无论是通过使用CXCR4还是出现高水平的VVC耐药性，在基线样本中以0.8% - 2.8%的次要变异体形式存在。群体频率朝着这些形式发生了极端、快速的变化，深度测序提供了VVC选择对快速进化影响的详细视图。选择后观察到更大的V3多样性。这种以前未报道的V3环序列多样性程度对病毒发病机制、疫苗设计以及HIV-1 CCR5拮抗剂的最佳使用具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/93cb/2682648/2e03f01dee1c/pone.0005683.g001.jpg

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定量深度测序揭示了体内CCR5拮抗剂治疗期间HIV-1的动态逃逸和大量群体变化。

Quantitative deep sequencing reveals dynamic HIV-1 escape and large population shifts during CCR5 antagonist therapy in vivo.

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