| Literature DB >> 25944056 |
Tae Wan Kim1, Byung-Hee Kang1, Hyonchol Jang1,2, Sojung Kwak1, Jihoon Shin1, Hyunsoo Kim1, Sang-Eun Lee3, Soon-Min Lee1, Jong-Hyuk Lee1, Jae-Hwan Kim1, Seon-Young Kim4, Eun-Jung Cho5, Ju Han Kim6, Keun Soo Park7, Jeong-Hwan Che7, Dong Wook Han8, Min Jueng Kang9, Eugene C Yi9, Hong-Duk Youn1,9.
Abstract
For cells to exit from pluripotency and commit to a lineage, the circuitry of a core transcription factor (CTF) network must be extinguished in an orderly manner through epigenetic modifications. However, how this choreographed epigenetic remodeling at active embryonic stem cell (ESC) genes occurs during differentiation is poorly understood. In this study, we demonstrate that C-terminal binding protein 2 (Ctbp2) regulates nucleosome remodeling and deacetylation (NuRD)-mediated deacetylation of H3K27 and facilitates recruitment of polycomb repressive complex 2 (PRC2)-mediated H3K27me3 in active ESC genes for exit from pluripotency during differentiation. By genomewide analysis, we found that Ctbp2 resides in active ESC genes and co-occupies regions with ESC CTFs in undifferentiated ESCs. Furthermore, ablation of Ctbp2 effects inappropriate gene silencing in ESCs by sustaining high levels of H3K27ac and impeding H3K27me3 in active ESC genes, thereby sustaining ESC maintenance during differentiation. Thus, Ctbp2 preoccupies regions in active genes with the NuRD complex in undifferentiated ESCs that are directed toward H3K27me3 by PRC2 to induce stable silencing, which is pivotal for natural lineage commitment.Entities:
Keywords: Active embryonic stem cell genes; C-terminal binding protein; Core transcription factor; Embryonic stem cells; Exit from pluripotency; H3K27 acetylation and trimethylation; Nucleosome remodeling and deacetylation complex; Polycomb repressive complex 2
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Year: 2015 PMID: 25944056 DOI: 10.1002/stem.2046
Source DB: PubMed Journal: Stem Cells ISSN: 1066-5099 Impact factor: 6.277