JMJD3 and UTX determine fidelity and lineage specification of human neural progenitor cells

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作者
Yongli Shan
Yanqi Zhang
Yuan Zhao
Tianyu Wang
Jingyuan Zhang
Jiao Yao
Ning Ma
Zechuan Liang
Wenhao Huang
Ke Huang
Tian Zhang
Zhenghui Su
Qianyu Chen
Yanling Zhu
Chuman Wu
Tiancheng Zhou
Wei Sun
Yanxing Wei
Cong Zhang
Chenxu Li
Shuquan Su
Baojian Liao
Mei Zhong
Xiaofen Zhong
Jinfu Nie
Duanqing Pei
Guangjin Pan
机构
[1] Guangzhou Medical University,CAS Key Laboratory of Regenerative Biology, Joint School of Life Sciences, Guangzhou Institutes of Biomedicine and Health, Chinese Academy of Sciences
[2] Southern Medical University,Nanfang Hospital
[3] University of Chinese Academy of Sciences,Guangdong Provincial Key Laboratory of Stem Cell and Regenerative Medicine, South China Institute for Stem Cell Biology and Regenerative Medicine, Guangzhou Institutes of Biomedicine and Health
[4] Chinese Academy of Sciences,Shandong Medicinal Biotechnology Center
[5] Guangzhou Regenerative Medicine and Health Guangdong Laboratory,Centre for Regenerative Medicine and Health, Hong Kong Institute of Science and Innovation
[6] Shandong First Medical University & Shandong Academy of Medical Sciences,undefined
[7] Chinese Academy of Sciences,undefined
来源
Nature Communications | / 11卷
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摘要
Neurogenesis, a highly orchestrated process, entails the transition from a pluripotent to neural state and involves neural progenitor cells (NPCs) and neuronal/glial subtypes. However, the precise epigenetic mechanisms underlying fate decision remain poorly understood. Here, we delete KDM6s (JMJD3 and/or UTX), the H3K27me3 demethylases, in human embryonic stem cells (hESCs) and show that their deletion does not impede NPC generation from hESCs. However, KDM6-deficient NPCs exhibit poor proliferation and a failure to differentiate into neurons and glia. Mechanistically, both JMJD3 and UTX are found to be enriched in gene loci essential for neural development in hNPCs, and KDM6 impairment leads to H3K27me3 accumulation and blockade of DNA accessibility at these genes. Interestingly, forced expression of neuron-specific chromatin remodelling BAF (nBAF) rescues the neuron/glia defect in KDM6-deficient NPCs despite H3K27me3 accumulation. Our findings uncover the differential requirement of KDM6s in specifying NPCs and neurons/glia and highlight the contribution of individual epigenetic regulators in fate decisions in a human development model.
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