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Transcriptionally active HERV-H retrotransposons demarcate topologically associating domains in human pluripotent stem cells
- Zhang, Yanxiao;
- Li, Ting;
- Preissl, Sebastian;
- Amaral, Maria Luisa;
- Grinstein, Jonathan D;
- Farah, Elie N;
- Destici, Eugin;
- Qiu, Yunjiang;
- Hu, Rong;
- Lee, Ah Young;
- Chee, Sora;
- Ma, Kaiyue;
- Ye, Zhen;
- Zhu, Quan;
- Huang, Hui;
- Fang, Rongxin;
- Yu, Leqian;
- Izpisua Belmonte, Juan Carlos;
- Wu, Jun;
- Evans, Sylvia M;
- Chi, Neil C;
- Ren, Bing
- et al.
Published Web Location
https://doi.org/10.1038/s41588-019-0479-7Abstract
Chromatin architecture has been implicated in cell type-specific gene regulatory programs, yet how chromatin remodels during development remains to be fully elucidated. Here, by interrogating chromatin reorganization during human pluripotent stem cell (hPSC) differentiation, we discover a role for the primate-specific endogenous retrotransposon human endogenous retrovirus subfamily H (HERV-H) in creating topologically associating domains (TADs) in hPSCs. Deleting these HERV-H elements eliminates their corresponding TAD boundaries and reduces the transcription of upstream genes, while de novo insertion of HERV-H elements can introduce new TAD boundaries. The ability of HERV-H to create TAD boundaries depends on high transcription, as transcriptional repression of HERV-H elements prevents the formation of boundaries. This ability is not limited to hPSCs, as these actively transcribed HERV-H elements and their corresponding TAD boundaries also appear in pluripotent stem cells from other hominids but not in more distantly related species lacking HERV-H elements. Overall, our results provide direct evidence for retrotransposons in actively shaping cell type- and species-specific chromatin architecture.
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