KLF4 inhibits early neural differentiation of ESCs by coordinating specific 3D chromatin structure
Bi Jinfang, Wang Wenbin, Zhang Meng, Zhang Baoying, Liu Man, Su Guangsong, Chen Fuquan, Chen Bohan, Shi Tengfei, Zheng Yaoqiang, Zhao Xueyuan, Zhao Zhongfang, Shi Jiandang, Li Peng, Zhang Lei, Lu Wan
Journal:NUCLEIC ACIDS RESEARCH
IF:19.16
DOI:10.1093/nar/gkac1118
PMID:36477888
Published:2022-12-07
research field:分子生物学染色质结构干细胞研究基因调控
Abstract
Neural differentiation of embryonic stem cells (ESCs) requires precisely orchestrated gene regulation, a process governed in part by changes in 3D chromatin structure. How these changes regulate gene expression in this context remains unclear. In this study, we observed enrichment of the transcription factor KLF4 at some poised or closed enhancers at TSS-linked regions of genes associated with neural differentiation. Combination analysis of ChIP, HiChIP and RNA-seq data indicated that KLF4 loss in ESCs induced changes in 3D chromatin structure, including increased chromatin interaction loops between neural differentiation-associated genes and active enhancers, leading to upregulated expression of neural differentiation-associated genes and therefore early neural differentiation. This study suggests KLF4 inhibits early neural differentiation by regulation of 3D chromatin structure, which is a new mechanism of early neural differentiation.
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