| Literature DB >> 28111200 |
Huanhuan Li1, Ping Lai2, Jinping Jia3, Yawei Song2, Qing Xia2, Kaimeng Huang2, Na He4, Wangfang Ping2, Jiayu Chen5, Zhongzhou Yang2, Jiao Li2, Mingze Yao2, Xiaotao Dong2, Jicheng Zhao6, Chunhui Hou4, Miguel A Esteban2, Shaorong Gao5, Duanqing Pei2, Andrew P Hutchins4, Hongjie Yao7.
Abstract
RNA-binding proteins (RBPs), in addition to their functions in cellular homeostasis, play important roles in lineage specification and maintaining cellular identity. Despite their diverse and essential functions, which touch on nearly all aspects of RNA metabolism, the roles of RBPs in somatic cell reprogramming are poorly understood. Here we show that the DEAD-box RBP DDX5 inhibits reprogramming by repressing the expression and function of the non-canonical polycomb complex 1 (PRC1) subunit RYBP. Disrupting Ddx5 expression improves the efficiency of iPSC generation and impedes processing of miR-125b, leading to Rybp upregulation and suppression of lineage-specific genes via RYBP-dependent ubiquitination of H2AK119. Furthermore, RYBP is required for PRC1-independent recruitment of OCT4 to the promoter of Kdm2b, a histone demethylase gene that promotes reprogramming by reactivating endogenous pluripotency genes. Together, these results reveal important functions of DDX5 in regulating reprogramming and highlight the importance of a Ddx5-miR125b-Rybp axis in controlling cell fate.Entities:
Keywords: DDX5; H2AK119ub1; RNA binding protein; RYBP; microRNA-125b; pluripotency; polycomb repressor complex 1; somatic cell reprogramming
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Year: 2017 PMID: 28111200 DOI: 10.1016/j.stem.2016.12.002
Source DB: PubMed Journal: Cell Stem Cell ISSN: 1875-9777 Impact factor: 24.633