Park Kiwon, Lee Dohoon, Jeong Jiseok, Lee Sungwon, Kim Sun, Ahn Kwangseog
Center for RNA Research, Institute for Basic Science, Seoul, Republic of Korea.
School of Biological Sciences, Seoul National University, Seoul, Republic of Korea.
Elife. 2024 Dec 3;13:RP97348. doi: 10.7554/eLife.97348.
Although HIV-1 integration sites favor active transcription units in the human genome, high-resolution analysis of individual HIV-1 integration sites has shown that the virus can integrate into a variety of host genomic locations, including non-genic regions. The invisible infection by HIV-1 integrating into non-genic regions, challenging the traditional understanding of HIV-1 integration site selection, is more problematic because they are selected for preservation in the host genome during prolonged antiretroviral therapies. Here, we showed that HIV-1 integrates its viral genome into the vicinity of R-loops, a genomic structure composed of DNA-RNA hybrids. VSV-G-pseudotyped HIV-1 infection initiates the formation of R-loops in both genic and non-genic regions of the host genome and preferentially integrates into R-loop-rich regions. Using a HeLa cell model that can independently control transcriptional activity and R-loop formation, we demonstrated that the exogenous formation of R-loops directs HIV-1 integration-targeting sites. We also found that HIV-1 integrase proteins physically bind to the host genomic R-loops. These findings provide novel insights into the mechanisms underlying retroviral integration and the new strategies for antiretroviral therapy against HIV-1 latent infection.
尽管HIV-1整合位点倾向于人类基因组中的活跃转录单元,但对单个HIV-1整合位点的高分辨率分析表明,该病毒可整合到多种宿主基因组位置,包括非基因区域。HIV-1整合到非基因区域导致的隐匿感染挑战了对HIV-1整合位点选择的传统认识,这一问题更为棘手,因为在长期抗逆转录病毒治疗期间,这些位点会被选择保留在宿主基因组中。在此,我们表明HIV-1将其病毒基因组整合到R环附近,R环是一种由DNA-RNA杂交体组成的基因组结构。VSV-G假型化的HIV-1感染会在宿主基因组的基因和非基因区域引发R环的形成,并优先整合到富含R环的区域。利用可独立控制转录活性和R环形成的HeLa细胞模型,我们证明了R环的外源形成可引导HIV-1整合靶向位点。我们还发现HIV-1整合酶蛋白与宿主基因组R环发生物理结合。这些发现为逆转录病毒整合的机制以及针对HIV-1潜伏感染的抗逆转录病毒治疗新策略提供了新见解。
