Kaitlin A Marquis, Carter Merenstein, Frederic D Bushman
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Here, we analyzed conserved changes in small-molecule metabolites present in the cervicovaginal lavage fluid collected from women colonized with HDCs and LDCs with the goal of identifying possible chemicals influencing HIV infection. As in previous studies, we found that the catabolite of the branched-chain amino acid valine, 2-hydroxyisovalerate (2-HV), was a consistent component of dysbiotic HDC microbiota. Effects of 2-HV on HIV infection were assessed. In experimental infections with HIV, treatment with 2-HV increased infections of resting CD4<sup>+</sup> T cells. To understand bacterial production of 2-HV in more detail, we cultured purified HDC and LDC bacteria and used mass spectrometry to identify two HDC bacteria that synthesize high levels of 2-HV. In contrast, protective vaginal <i>Lactobacilli</i> did not produce high levels of 2-HV. A genomic analysis of genes encoding 2-HV synthetic pathways showed a correlation between high-level production of 2-HV and pathways for synthesis of the immediate precursor 2-ketoisovalerate. 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引用次数: 0
摘要
人类免疫缺陷病毒(HIV)感染和随之而来的获得性免疫缺陷综合症(艾滋病)对年轻女性的影响尤为严重,但人们对促进女性生殖道异性传播因素的了解却很有限。与乳酸杆菌为主的低多样性群落(LDCs)相比,高多样性、乳酸杆菌缺乏的群落(HDCs)会增加女性感染 HIV-1 的风险。这些群落的多微生物特性使得阐明调节 HIV 易感性的微生物机制具有挑战性。在这里,我们分析了从定植有 HDCs 和 LDCs 的女性宫颈阴道灌洗液中发现的小分子代谢物的一致变化,目的是找出可能影响 HIV 感染的化学物质。与之前的研究一样,我们发现支链氨基酸缬氨酸的代谢产物--2-羟基异戊酸酯(2-HV)是HDC微生物菌群失调的一致成分。研究还评估了 2-HV 对 HIV 感染的影响。在实验性艾滋病病毒感染中,2-HV 会增加静息 CD4+ T 细胞的感染。为了更详细地了解细菌产生的 2-HV,我们培养了纯化的 HDC 和 LDC 细菌,并使用质谱法鉴定出两种能合成大量 2-HV 的 HDC 细菌。相比之下,保护性阴道乳酸杆菌不产生高水平的 2-HV。对编码 2-HV 合成途径的基因进行的基因组分析表明,2-HV 的大量产生与直接前体 2-酮异戊酸的合成途径有关。因此,2-HV 是将妇女阴道微生物群结构与艾滋病毒异性传播联系起来的候选介质。
2-Hydroxyisovalerate Is Produced During Bacterial Vaginosis and Boosts HIV Infection in Resting T Cells.
Human immunodeficiency virus (HIV) infection and the ensuing acquired immunodeficiency syndrome (AIDS) disproportionally affect young women, yet understanding of the factors promoting heterosexual transmission in the female genital tract is limited. Colonization with highly diverse, Lactobacillus-deficient communities (HDCs) increases a woman's risk of acquiring HIV-1 compared with colonization with Lactobacillus-dominated low diversity communities (LDCs). The polymicrobial nature of these communities has made it challenging to elucidate the microbial mechanisms responsible for modulating HIV susceptibility. Here, we analyzed conserved changes in small-molecule metabolites present in the cervicovaginal lavage fluid collected from women colonized with HDCs and LDCs with the goal of identifying possible chemicals influencing HIV infection. As in previous studies, we found that the catabolite of the branched-chain amino acid valine, 2-hydroxyisovalerate (2-HV), was a consistent component of dysbiotic HDC microbiota. Effects of 2-HV on HIV infection were assessed. In experimental infections with HIV, treatment with 2-HV increased infections of resting CD4+ T cells. To understand bacterial production of 2-HV in more detail, we cultured purified HDC and LDC bacteria and used mass spectrometry to identify two HDC bacteria that synthesize high levels of 2-HV. In contrast, protective vaginal Lactobacilli did not produce high levels of 2-HV. A genomic analysis of genes encoding 2-HV synthetic pathways showed a correlation between high-level production of 2-HV and pathways for synthesis of the immediate precursor 2-ketoisovalerate. Thus, 2-HV is a candidate mediator linking vaginal microbiome structure and heterosexual HIV transmission in women.
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.