Species-specific KRAB-ZFPs function as repressors of retroviruses by targeting PBS regions
Bo Yang, Lu Fang, Qianqian Gao, Ce Xu, Junqin Xu, Zhen‐Xia Chen, Yixuan Wang, Peng Yang
Abstract
Eukaryotic genomes harbor sequences derived from the chromosomal integration of ancient viruses, such as endogenous retroviruses (ERVs), which comprise 8% of the human genome. Like exogenous retroviruses, ERVs retain many common functional elements, including the corresponding DNA sequences of transfer RNA (tRNA) primer binding sites (PBSs), which are utilized for reverse transcription initiation by exogenous retroviruses. Here, through a medium-scale analysis of PBS loci positioned within ERVs, coupled with chromatin immunoprecipitation sequencing (ChIP-seq) of Kruppel-associated box zinc finger proteins (KRAB-ZFPs), we identified multiple ZFPs that specifically bind to different PBS loci. Among these, we focused on PBS-Lys, which is utilized by HIV-1, and identified its specific binding proteins to be mouse ZFP961 and human ZNF417/ZNF587. We found that these proteins not only repress ERV transcription but also inhibit retrovirus integration and transcription. Disruption of these ZFPs rendered cells more susceptible to HIV-1 infection. Thus, our research provides a methodology for identifying potential host factors that target retroviruses by ERVs.