用于临床耐药性分析和公共卫生监测的 HIV-1 直接全基因组测序。

IF 4 3区 医学 Q2 VIROLOGY
Rosa C. Coldbeck-Shackley , Penelope J. Adamson , Daryn Whybrow , Caitlin A. Selway , Lito E. Papanicolas , Mark Turra , Lex E.X. Leong
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引用次数: 0

摘要

背景:1 型人类免疫缺陷病毒(HIV-1)仍然是全球健康的重大威胁,部分原因是它能够对抗逆转录病毒疗法产生耐药性。对聚合酶(pol)序列进行 HIV-1 基因型和耐药性分析是临床和公共卫生管理的主要方法。然而,随着新疗法和耐药性的发展,分析方法也必须随之改变。在本研究中,我们概述了利用探针捕获目标富集进行 HIV-1 基因型和耐药性分析的直接全基因组测序方法(dWGS)的开发和实施情况:我们实施了 dWGS,并对临床样本进行了平行多极 Sanger 测序,然后进行了基因型和耐药性比较分析。我们还利用这些 HIV-1 WGS 序列进行了新的分区系统发育分析:结果:优化的核酸提取和 DNAse I 处理大大增加了 HIV-1 全基因组的覆盖范围和深度,提高了低病毒载量临床样本高质量基因组的回收率,从而能够对低至 1000 拷贝/毫升的病毒载量进行常规测序。总体而言,与桑格测序相比,dWGS 在检测耐药位点的低频变异方面更稳健、更准确、更灵敏。与仅分析 pol 序列相比,对多个序列区域的分析改善了重组 HIV-1 序列的系统发育重建:这些研究结果表明,与传统的 pol 测序相比,dWGS 通过定量变异检测增强了 HIV-1 耐药性分析,并改善了 HIV-1 系统发育的重建。这项工作证明,在临床和公共卫生应用中,HIV-1 dWGS 是取代 Sanger 测序的可行选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Direct whole-genome sequencing of HIV-1 for clinical drug-resistance analysis and public health surveillance

Background

Human Immunodeficiency virus type 1 (HIV-1) remains a significant global health threat partly due to its ability to develop resistance to anti-retroviral therapies. HIV-1 genotype and drug resistance analysis of the polymerase (pol) sequence is a mainstay of its clinical and public health management. However, as new treatments and resistances evolve, analysis methods must change accordingly. In this study, we outline the development and implementation of a direct whole-genome sequencing approach (dWGS) using probe-capture target-enrichment for HIV-1 genotype and drug resistance analysis.

Methods

We implemented dWGS and performed parallel pol Sanger sequencing for clinical samples, followed by comparative genotype and drug-resistance analysis. These HIV-1 WGS sequences were also utilised for a novel partitioned phylogenetic analysis.

Results

Optimised nucleic acid extraction and DNAse I treatment significantly increased HIV-1 whole-genome coverage and depth, and improved recovery of high-quality genomes from low viral load clinical samples, enabling routine sequencing of viral loads as low as 1000 copies/mL. Overall, dWGS was robust, accurate and more sensitive for detecting low-frequency variants at drug-resistance sites compared to Sanger sequencing. Analysis of multiple sequence regions improved phylogenetic reconstruction for recombinant HIV-1 sequences compared to analysis of pol sequence alone.

Conclusions

These findings demonstrate dWGS enhances HIV-1 drug-resistance analysis by quantitative variant detection and improves reconstruction of HIV-1 phylogenies compared to traditional pol sequencing. This work supports that HIV-1 dWGS is a viable option to replace Sanger sequencing for clinical and public health applications.

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来源期刊
Journal of Clinical Virology
Journal of Clinical Virology 医学-病毒学
CiteScore
22.70
自引率
1.10%
发文量
149
审稿时长
24 days
期刊介绍: The Journal of Clinical Virology, an esteemed international publication, serves as the official journal for both the Pan American Society for Clinical Virology and The European Society for Clinical Virology. Dedicated to advancing the understanding of human virology in clinical settings, the Journal of Clinical Virology focuses on disseminating research papers and reviews pertaining to the clinical aspects of virology. Its scope encompasses articles discussing diagnostic methodologies and virus-induced clinical conditions, with an emphasis on practicality and relevance to clinical practice. The journal publishes on topics that include: • new diagnostic technologies • nucleic acid amplification and serologic testing • targeted and metagenomic next-generation sequencing • emerging pandemic viral threats • respiratory viruses • transplant viruses • chronic viral infections • cancer-associated viruses • gastrointestinal viruses • central nervous system viruses • one health (excludes animal health)
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