单细胞转录图谱揭示了HIV-1驱动的异常宿主基因转录作为一种潜在的治疗靶点。

Single-cell transcriptional landscapes reveal HIV-1-driven aberrant host gene transcription as a potential therapeutic target.

作者信息

Liu Runxia, Yeh Yang-Hui Jimmy, Varabyou Ales, Collora Jack A, Sherrill-Mix Scott, Talbot C Conover, Mehta Sameet, Albrecht Kristen, Hao Haiping, Zhang Hao, Pollack Ross A, Beg Subul A, Calvi Rachela M, Hu Jianfei, Durand Christine M, Ambinder Richard F, Hoh Rebecca, Deeks Steven G, Chiarella Jennifer, Spudich Serena, Douek Daniel C, Bushman Frederic D, Pertea Mihaela, Ho Ya-Chi

机构信息

Department of Microbial Pathogenesis, Yale University School of Medicine, New Haven, CT 06519, USA.

Department of Computer Science, Whiting School of Engineering, Johns Hopkins University, Baltimore, MD 21218, USA.

出版信息

Sci Transl Med. 2020 May 13;12(543). doi: 10.1126/scitranslmed.aaz0802.

DOI:10.1126/scitranslmed.aaz0802

PMID:32404504

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7453882/

Abstract

Understanding HIV-1-host interactions can identify the cellular environment supporting HIV-1 reactivation and mechanisms of clonal expansion. We developed HIV-1 SortSeq to isolate rare HIV-1-infected cells from virally suppressed, HIV-1-infected individuals upon early latency reversal. Single-cell transcriptome analysis of HIV-1 SortSeq cells revealed enrichment of nonsense-mediated RNA decay and viral transcription pathways. HIV-1 SortSeq cells up-regulated cellular factors that can support HIV-1 transcription ( and ) or promote cellular survival ( and ). HIV-1-host RNA landscape analysis at the integration site revealed that HIV-1 drives high aberrant host gene transcription downstream, but not upstream, of the integration site through HIV-1-to-host aberrant splicing, in which HIV-1 RNA splices into the host RNA and aberrantly drives host RNA transcription. HIV-1-induced aberrant transcription was driven by the HIV-1 promoter as shown by CRISPR-dCas9-mediated HIV-1-specific activation and could be suppressed by CRISPR-dCas9-mediated inhibition of HIV-1 5' long terminal repeat. Overall, we identified cellular factors supporting HIV-1 reactivation and HIV-1-driven aberrant host gene transcription as potential therapeutic targets to disrupt HIV-1 persistence.

摘要

了解HIV-1与宿主的相互作用可以确定支持HIV-1重新激活的细胞环境以及克隆扩增机制。我们开发了HIV-1 SortSeq技术，以便在早期潜伏期逆转时从病毒受到抑制的HIV-1感染者中分离出罕见的HIV-1感染细胞。对HIV-1 SortSeq细胞进行单细胞转录组分析，发现无义介导的RNA降解和病毒转录途径得到富集。HIV-1 SortSeq细胞上调了能够支持HIV-1转录（和）或促进细胞存活（和）的细胞因子。对整合位点处的HIV-1与宿主RNA景观分析表明，HIV-1通过HIV-1与宿主的异常剪接，在整合位点下游而非上游驱动宿主基因的高度异常转录，即HIV-1 RNA剪接到宿主RNA中并异常驱动宿主RNA转录。如CRISPR-dCas9介导的HIV-1特异性激活所示，HIV-1诱导的异常转录由HIV-1启动子驱动，并且可以通过CRISPR-dCas9介导的对HIV-1 5'长末端重复序列的抑制来抑制。总体而言，我们确定了支持HIV-1重新激活以及HIV-1驱动的宿主基因异常转录的细胞因子，将其作为破坏HIV-1持续存在的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9c75/7453882/1fdfdf15a386/nihms-1598735-f0001.jpg

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