Department of Microbiology, Tokushima University Graduate School of Biomedical Sciences, Tokushima 770-8503, Japan.
Faculty of Medicine, Tokushima University, Tokushima 770-8503, Japan.
Viruses. 2021 Oct 15;13(10):2079. doi: 10.3390/v13102079.
HIV-1 Vif plays an essential role in viral replication by antagonizing anti-viral cellular restriction factors, a family of APOBEC3 proteins. We have previously shown that naturally-occurring single-nucleotide mutations in the SA1D2prox region, which surrounds the splicing acceptor 1 and splicing donor 2 sites of the HIV-1 genome, dramatically alter the Vif expression level, resulting in variants with low or excessive Vif expression. In this study, we investigated how these HIV-1 variants with poor replication ability adapt and evolve under the pressure of APOBEC3 proteins. Adapted clones obtained through adaptation experiments exhibited an altered replication ability and Vif expression level compared to each parental clone. While various mutations were present throughout the viral genome, all replication-competent adapted clones with altered Vif expression levels were found to bear them within SA1D2prox, without exception. Indeed, the mutations identified within SA1D2prox were responsible for changes in the Vif expression levels and altered the splicing pattern. Moreover, for samples collected from HIV-1-infected patients, we showed that the nucleotide sequences of SA1D2prox can be chronologically changed and concomitantly affect the Vif expression levels. Taken together, these results demonstrated the importance of the SA1D2prox nucleotide sequence for modulating the Vif expression level during HIV-1 replication and adaptation.
HIV-1 Vif 通过拮抗抗病毒细胞限制因子(APOBEC3 蛋白家族),在病毒复制中发挥重要作用。我们之前已经表明,HIV-1 基因组的剪接受体 1 和剪接供体 2 周围的 SA1D2prox 区域的天然存在的单核苷酸突变,会极大地改变 Vif 的表达水平,导致 Vif 表达水平低或过高的变体。在这项研究中,我们研究了这些复制能力差的 HIV-1 变体在 APOBEC3 蛋白的压力下如何适应和进化。通过适应实验获得的适应克隆与每个亲本克隆相比,表现出改变的复制能力和 Vif 表达水平。虽然整个病毒基因组中存在各种突变,但所有具有改变的 Vif 表达水平的复制能力适应克隆都无一例外地在 SA1D2prox 中带有它们。事实上,在 SA1D2prox 中鉴定出的突变负责改变 Vif 的表达水平并改变剪接模式。此外,对于从 HIV-1 感染患者中收集的样本,我们表明 SA1D2prox 的核苷酸序列可以随时间变化,并同时影响 Vif 的表达水平。总之,这些结果表明 SA1D2prox 核苷酸序列在调节 HIV-1 复制和适应过程中的 Vif 表达水平方面的重要性。
