PHC1 maintains pluripotency by organizing genome-wide chromatin interactions of the Nanog locus

Author:

Chen Li,Tong Qiaoqiao,Chen Xiaowen,Jiang Penglei,Yu Hua,Zhao Qianbing,Sun Lingang,Liu ChaoORCID,Gu Bin,Zheng YupingORCID,Fei Lijiang,Jiang Xiao,Li Wenjuan,Volpe GiacomoORCID,Abdul Mazid MD.,Guo GuojiORCID,Zhang Jin,Qian Pengxu,Sun QimingORCID,Neculai DanteORCID,Esteban Miguel A.,Li ChenORCID,Wen Feiqiu,Ji JunfengORCID

Abstract

AbstractPolycomb group (PcG) proteins maintain cell identity by repressing gene expression during development. Surprisingly, emerging studies have recently reported that a number of PcG proteins directly activate gene expression during cell fate determination process. However, the mechanisms by which they direct gene activation in pluripotency remain poorly understood. Here, we show that Phc1, a subunit of canonical polycomb repressive complex 1 (cPRC1), can exert its function in pluripotency maintenance via a PRC1-independent activation of Nanog. Ablation of Phc1 reduces the expression of Nanog and overexpression of Nanog partially rescues impaired pluripotency caused by Phc1 depletion. We find that Phc1 interacts with Nanog and activates Nanog transcription by stabilizing the genome-wide chromatin interactions of the Nanog locus. This adds to the already known canonical function of PRC1 in pluripotency maintenance via a PRC1-dependent repression of differentiation genes. Overall, our study reveals a function of Phc1 to activate Nanog transcription through regulating chromatin architecture and proposes a paradigm for PcG proteins to maintain pluripotency.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

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