Structural Features and Genetic Diversity in Gag Gene of Rare HIV-1 Subtypes from the Democratic Republic of Congo.

IF 1.5 4区医学 Q4 IMMUNOLOGY AIDS research and human retroviruses Pub Date : 2024-03-01 Epub Date: 2023-07-05 DOI:10.1089/AID.2022.0154

Célestin Godwe, Nicole Vidal, Jérémie Muwonga, Christelle Butel, Laetitia Serrano, Samuel Edidi, Steve Ahuka-Mundeke, Francioli Koro Koro, Xavier Etoa, Marcel Tongo, Martine Peeters, Ahidjo Ayouba

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Abstract

Type-1 HIV (HIV-1) group M (HIV-1M) genetic diversity is highest in the Congo Basin where the epidemic ignited a century ago. HIV-1M has diversified into multiple subtypes, sub-subtypes, and circulating and unique recombinant forms (CRFs/URFs). An unanswered question is why some rare subtypes never reached epidemic levels despite their age. Several studies identified the role of HIV-1M accessory genes nef and vpu in virus adaptation to human hosts and subsequent spread. Other reports also pointed out the pivotal role of gag in transmissibility, virulence, and replication capacity. In this study we characterized the HIV-1 gag gene of 148 samples collected in different localities of the Democratic Republic of the Congo (DRC) between 1997 and 2013. We used nested polymerase chain reaction (PCR) to amplify the whole gag gene. PCR products were sequenced either by Sanger method or by next generation sequencing on Illumina MiSeq or iSeq100 platforms. Generated sequences were used for subsequent analyses using different bioinformatic tools. Phylogenetic analysis of the generated sequences revealed a high genetic diversity with up to 22 different subtypes, sub-subtypes, CRFs. Up to 15% (22/148) URFs were identified, in addition to rare subtypes such as H, J, and K. At least two amino acid motifs present in the gag gene have been shown to modulate HIV-1 replication, budding, and fitness: the P(T/S)AP and the LYPXnL motifs. Structural analysis revealed the presence of P(T/S)AP in all the 148 sequences with the majority (136/148) bearing the PTAP. Three samples presented a duplication of this motif. The LYPXnL motif was identified in 38 of 148 sequences. There was no clear link between the frequency of these motifs and HIV-1M subtypes. In summary, we confirmed a high genetic diversity of HIV-1M in the DRC. We observed the presence of amino acid motifs important for viral replication and budding even in some rare HIV-1 subtypes. Their impact on viral fitness needs be further evaluated by in vitro studies.

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刚果民主共和国罕见 HIV-1 亚型 Gag 基因的结构特征和遗传多样性。

1 型艾滋病毒（HIV-1）M 组（HIV-1M）的遗传多样性在刚果盆地最高，一个世纪前这一流行病在刚果盆地爆发。HIV-1M 已多样化为多种亚型、亚亚型、循环型和独特的重组型（CRF/URF）。一个悬而未决的问题是，为什么一些罕见的亚型尽管年代久远却从未达到流行水平。一些研究发现，HIV-1M 辅助基因 nef 和 vpu 在病毒适应人类宿主和随后的传播中发挥了作用。其他报告也指出了 gag 在传播性、毒性和复制能力方面的关键作用。在本研究中，我们对 1997 年至 2013 年期间在刚果民主共和国（DRC）不同地区采集的 148 份样本中的 HIV-1 gag 基因进行了鉴定。我们使用巢式聚合酶链反应（PCR）扩增整个 gag 基因。PCR 产物通过 Sanger 方法或在 Illumina MiSeq 或 iSeq100 平台上进行新一代测序。利用不同的生物信息学工具对生成的序列进行后续分析。对生成的序列进行的系统发育分析表明，遗传多样性很高，有多达 22 种不同的亚型、亚亚型、CRF。除了 H、J 和 K 等罕见亚型外，还发现了高达 15% （22/148）的 URF。结构分析表明，在所有 148 个序列中都存在 P(T/S)AP，其中大多数（136/148）带有 PTAP。有三个样本出现了该图案的重复。在 148 个序列中的 38 个中发现了 LYPXnL 主题。这些基调的频率与 HIV-1M 亚型之间没有明显的联系。总之，我们证实刚果民主共和国的 HIV-1M 遗传多样性很高。即使在一些罕见的 HIV-1 亚型中，我们也观察到了对病毒复制和出芽很重要的氨基酸基序。它们对病毒适应性的影响需要通过体外研究来进一步评估。

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来源期刊

AIDS research and human retroviruses 医学-病毒学

CiteScore

3.10

自引率

6.70%

发文量

201

审稿时长

3-6 weeks

期刊介绍： AIDS Research and Human Retroviruses was the very first AIDS publication in the field over 30 years ago, and today it is still the critical resource advancing research in retroviruses, including AIDS. The Journal provides the broadest coverage from molecular biology to clinical studies and outcomes research, focusing on developments in prevention science, novel therapeutics, and immune-restorative approaches. Cutting-edge papers on the latest progress and research advances through clinical trials and examination of targeted antiretroviral agents lead to improvements in translational medicine for optimal treatment outcomes. AIDS Research and Human Retroviruses coverage includes: HIV cure research HIV prevention science - Vaccine research - Systemic and Topical PreP Molecular and cell biology of HIV and SIV Developments in HIV pathogenesis and comorbidities Molecular biology, immunology, and epidemiology of HTLV Pharmacology of HIV therapy Social and behavioral science Rapid publication of emerging sequence information.