FTO mediates LINE1 m <sup>6</sup> A demethylation and chromatin regulation in mESCs and mouse development

Jiangbo Wei; Xianbin Yu; Lei Yang; Xuelian Liu; Boyang Gao; Boxian Huang; Xiaoyang Dou; Jun Liu; Zhongyu Zou; Xiaolong Cui; Lisheng Zhang; Xingsen Zhao; Qinzhe Liu; P. Cody He; Caraline Sepich‐Poore; Nicole Zhong; Wenqiang Liu; Yanhe Li; Xiaochen Kou; Yanhong Zhao; You Wu; Xuejun Cheng; Chuan Chen; Yiming An; Xueyang Dong; Huanyu Wang; Qiang Shu; Ziyang Hao; Tao Duan; Yu‐Ying He; Xuekun Li; Shaorong Gao; Yawei Gao; Chuan He

doi:10.1126/science.abe9582

FTO mediates LINE1 m <sup>6</sup> A demethylation and chromatin regulation in mESCs and mouse development

Jiangbo Wei(Howard Hughes Medical Institute), Xianbin Yu(Howard Hughes Medical Institute), Lei Yang(Shanghai East Hospital), Xuelian Liu(Shanghai East Hospital), Boyang Gao(Howard Hughes Medical Institute), Boxian Huang(Suzhou Municipal Hospital), Xiaoyang Dou(Howard Hughes Medical Institute), Jun Liu(Howard Hughes Medical Institute), Zhongyu Zou(Howard Hughes Medical Institute), Xiaolong Cui(Howard Hughes Medical Institute), Lisheng Zhang(Howard Hughes Medical Institute), Xingsen Zhao(Children's Hospital of Zhejiang University), Qinzhe Liu(Howard Hughes Medical Institute), P. Cody He(Howard Hughes Medical Institute), Caraline Sepich‐Poore(Howard Hughes Medical Institute), Nicole Zhong(Howard Hughes Medical Institute), Wenqiang Liu(Shanghai First Maternity and Infant Hospital), Yanhe Li(Shanghai First Maternity and Infant Hospital), Xiaochen Kou(Shanghai East Hospital), Yanhong Zhao(Shanghai East Hospital), You Wu(Shanghai East Hospital), Xuejun Cheng(Children's Hospital of Zhejiang University), Chuan Chen(Shanghai East Hospital), Yiming An(Shanghai East Hospital), Xueyang Dong(Howard Hughes Medical Institute), Huanyu Wang(Howard Hughes Medical Institute), Qiang Shu(Children's Hospital of Zhejiang University), Ziyang Hao(Howard Hughes Medical Institute), Tao Duan(Shanghai First Maternity and Infant Hospital), Yu‐Ying He(University of Chicago), Xuekun Li(Children's Hospital of Zhejiang University), Shaorong Gao(Shanghai East Hospital), Yawei Gao(Shanghai East Hospital), Chuan He(Howard Hughes Medical Institute)

Science

May 5, 2022

10.1126/science.abe9582

Cited by 281Open Access

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Abstract

N 6 -methyladenosine (m 6 A) is the most abundant internal modification on mammalian messenger RNA. It is installed by a writer complex and can be reversed by erasers such as the fat mass and obesity-associated protein FTO. Despite extensive research, the primary physiological substrates of FTO in mammalian tissues and development remain elusive. Here, we show that FTO mediates m 6 A demethylation of long-interspersed element-1 (LINE1) RNA in mouse embryonic stem cells (mESCs), regulating LINE1 RNA abundance and the local chromatin state, which in turn modulates the transcription of LINE1-containing genes. FTO-mediated LINE1 RNA m 6 A demethylation also plays regulatory roles in shaping chromatin state and gene expression during mouse oocyte and embryonic development. Our results suggest broad effects of LINE1 RNA m 6 A demethylation by FTO in mammals.

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