INSERM U941, Université Paris-Diderot, Paris, France.
INSERM UMR-1124, Université de Paris, Paris, France.
Microbiol Spectr. 2022 Aug 31;10(4):e0078422. doi: 10.1128/spectrum.00784-22. Epub 2022 Jun 30.
In HIV infection, viral rebound after treatment discontinuation is considered to originate predominantly from viral genomes integrated in resting CD4 T lymphocytes. Replication-competent proviral genomes represent a minority of the total HIV DNA. While the quantification of the HIV reservoir has been extensively studied, the diversity of genomes that compose the reservoir was less explored. Here, we measured the genotypic and phenotypic diversity in eight patients with different treatment histories. Between 4 and 14 (mean, 8) individual viral isolates per patient were obtained using a virus outgrowth assay, and their near-full-length genomes were sequenced. The mean pairwise distance (MPD) observed in different patients correlated with the time before undetectable viremia was achieved ( = 0.864, = 0.0194), suggesting that the complexity of the replication-competent reservoir mirrors that present at treatment initiation. No correlation was instead observed between MPD and the duration of successful treatment (mean, 8 years; range, 2 to 21 years). For 5 of the 8 patients, genotypically identical viral isolates were observed in independent wells, suggesting clonal expansion of infected cells. Identical viruses represented between 25 and 60% of the isolates (mean, 48%). The proportion of identical viral isolates correlated with the duration of treatment ( = 0.822, = 0.0190), suggesting progressive clonal expansion of infected cells during ART. A broader range of infectivity was also observed among isolates from patients with delayed viremia control ( = 0.79, = 0.025). This work unveiled differences in the genotypic and phenotypic features of the replication-competent reservoir from treated patients and suggests that delaying treatment results in increased diversity of the reservoir. In HIV-infected and effectively treated individuals, integrated proviral genomes may persist for decades. The vast majority of the genomes, however, are defective, and only the replication-competent fraction represents a threat of viral reemergence. The quantification of the reservoir has been thoroughly explored, while the diversity of the genomes has been insufficiently studied. Its characterization, however, is relevant for the design of strategies aiming the reduction of the reservoir. Here, we explored the replication-competent near-full-length HIV genomes of eight patients who experienced differences in the delay before viremia control and in treatment duration. We found that delayed effective treatment was associated with increased genetic diversity of the reservoir. The duration of treatment did not impact the diversity but was associated with higher frequency of clonally expanded sequences. Thus, early treatment initiation has the double advantage of reducing both the size and the diversity of the reservoir.
在 HIV 感染中,治疗中断后病毒反弹被认为主要源自潜伏在 CD4 T 淋巴细胞中的病毒基因组。具有复制能力的前病毒基因组仅占 HIV DNA 的一小部分。尽管 HIV 储存库的定量已经得到广泛研究,但构成储存库的基因组多样性研究较少。在这里,我们测量了八位具有不同治疗史的患者的基因和表型多样性。使用病毒生长测定法,从每位患者中获得了 4 到 14 个(平均 8 个)个体病毒分离物,并对其全长近基因组进行了测序。不同患者之间观察到的平均成对距离(MPD)与未检测到病毒血症之前达到的时间相关(= 0.864,= 0.0194),这表明复制能力储存库的复杂性反映了治疗开始时的复杂性。但是,MPD 与成功治疗的持续时间之间没有相关性(平均 8 年;范围 2 至 21 年)。对于 8 位患者中的 5 位,在独立的孔中观察到了基因型相同的病毒分离物,这表明感染细胞的克隆扩增。相同的病毒占分离物的 25%至 60%(平均值为 48%)。相同病毒分离物的比例与治疗时间相关(= 0.822,= 0.0190),这表明在 ART 期间感染细胞的克隆扩增逐渐增加。从病毒血症控制延迟的患者中分离的病毒也观察到了更广泛的感染性范围(= 0.79,= 0.025)。这项工作揭示了治疗患者中复制能力储存库的基因和表型特征的差异,并表明延迟治疗会导致储存库多样性增加。在 HIV 感染和有效治疗的个体中,整合的前病毒基因组可能会持续数十年。但是,绝大多数基因组是有缺陷的,只有具有复制能力的部分才是病毒重新出现的威胁。储存库的定量已经得到了彻底的探索,而基因组的多样性则研究不足。然而,其特征对于旨在减少储存库的策略的设计很重要。在这里,我们研究了在病毒血症控制延迟和治疗持续时间方面存在差异的八位患者的复制能力的全长 HIV 近基因组。我们发现,延迟有效的治疗与储存库遗传多样性的增加有关。治疗持续时间不会影响多样性,但与克隆扩增序列的频率更高有关。因此,早期治疗开始具有减少储存库大小和多样性的双重优势。
