Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor

Mei Yang; Ji Hoon Lee; Zhao Zhang; Richard De La Rosa; Mingjun Bi; Yuliang Tan; Yiji Liao; Juyeong Hong; Baowen Du; Yanming Wu; Jessica Scheirer; Tao Hong; Wei Li; Teng Fei; Chen Lin Hsieh; Zhijie Liu; Wenbo Li; Michael G. Rosenfeld; Kexin Xu

doi:10.1016/j.celrep.2020.107803

Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor

Mei Yang, Ji Hoon Lee, Zhao Zhang, Richard De La Rosa, Mingjun Bi, Yuliang Tan, Yiji Liao, Juyeong Hong, Baowen Du, Yanming Wu, Jessica Scheirer, Tao Hong, Wei Li, Teng Fei, Chen Lin Hsieh, Zhijie Liu, Wenbo Li, Michael G. Rosenfeld, Kexin Xu

Department of Molecular Medicine

Producción científica: Article › revisión exhaustiva

18 Citas (Scopus)

Resumen

The function of enhancer RNAs (eRNAs) in transcriptional regulation remains obscure. By analyzing the genome-wide nascent transcript profiles in breast cancer cells, we identify a special group of eRNAs that are essential for estrogen-induced transcriptional repression. Using eRNAs of TM4SF1 and EFEMP1 as the paradigms, we find that these RNA molecules not only stabilize promoter-enhancer interactions but also recruit liganded estrogen receptor α (ERα) to particular enhancer regions, facilitate the formation of a functional transcriptional complex, and cause gene silencing. Interestingly, ERα is shown to directly bind with eRNAs by its DNA-binding domain. These eRNAs help with the formation of a specific ERα-centered transcriptional complex and promote the association of the histone demethylase KDM2A, which dismisses RNA polymerase II from designated enhancers and suppresses the transcription of target genes. Our work demonstrates a complete mechanism underlying the action of eRNAs in modulating and refining the locus-specific transcriptional program.

Idioma original	English (US)
Número de artículo	107803
Publicación	Cell Reports
Volumen	31
N.º	12
DOI	https://doi.org/10.1016/j.celrep.2020.107803
Estado	Published - jun 23 2020

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2020.107803

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Yang, M., Lee, J. H., Zhang, Z., De La Rosa, R., Bi, M., Tan, Y., Liao, Y., Hong, J., Du, B., Wu, Y., Scheirer, J., Hong, T., Li, W., Fei, T., Hsieh, C. L., Liu, Z., Li, W., Rosenfeld, M. G., & Xu, K. (2020). Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor. Cell Reports, 31(12), Artículo 107803. https://doi.org/10.1016/j.celrep.2020.107803

Yang, M, Lee, JH , Zhang, Z, De La Rosa, R, Bi, M, Tan, Y, Liao, Y, Hong, J, Du, B, Wu, Y, Scheirer, J, Hong, T, Li, W, Fei, T, Hsieh, CL, Liu, Z, Li, W, Rosenfeld, MG & Xu, K 2020, 'Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor', Cell Reports, vol. 31, n.º 12, 107803. https://doi.org/10.1016/j.celrep.2020.107803

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title = "Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor",

abstract = "The function of enhancer RNAs (eRNAs) in transcriptional regulation remains obscure. By analyzing the genome-wide nascent transcript profiles in breast cancer cells, we identify a special group of eRNAs that are essential for estrogen-induced transcriptional repression. Using eRNAs of TM4SF1 and EFEMP1 as the paradigms, we find that these RNA molecules not only stabilize promoter-enhancer interactions but also recruit liganded estrogen receptor α (ERα) to particular enhancer regions, facilitate the formation of a functional transcriptional complex, and cause gene silencing. Interestingly, ERα is shown to directly bind with eRNAs by its DNA-binding domain. These eRNAs help with the formation of a specific ERα-centered transcriptional complex and promote the association of the histone demethylase KDM2A, which dismisses RNA polymerase II from designated enhancers and suppresses the transcription of target genes. Our work demonstrates a complete mechanism underlying the action of eRNAs in modulating and refining the locus-specific transcriptional program.",

keywords = "ERα signaling, enhancer RNA, enhancer activity regulation, transcriptional repression",

author = "Mei Yang and Lee, {Ji Hoon} and Zhao Zhang and {De La Rosa}, Richard and Mingjun Bi and Yuliang Tan and Yiji Liao and Juyeong Hong and Baowen Du and Yanming Wu and Jessica Scheirer and Tao Hong and Wei Li and Teng Fei and Hsieh, {Chen Lin} and Zhijie Liu and Wenbo Li and Rosenfeld, {Michael G.} and Kexin Xu",

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T1 - Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor

AU - Yang, Mei

AU - Lee, Ji Hoon

AU - Zhang, Zhao

AU - De La Rosa, Richard

AU - Bi, Mingjun

AU - Tan, Yuliang

AU - Liao, Yiji

AU - Hong, Juyeong

AU - Du, Baowen

AU - Wu, Yanming

AU - Scheirer, Jessica

AU - Hong, Tao

AU - Li, Wei

AU - Fei, Teng

AU - Hsieh, Chen Lin

AU - Liu, Zhijie

AU - Li, Wenbo

AU - Rosenfeld, Michael G.

AU - Xu, Kexin

PY - 2020/6/23

Y1 - 2020/6/23

N2 - The function of enhancer RNAs (eRNAs) in transcriptional regulation remains obscure. By analyzing the genome-wide nascent transcript profiles in breast cancer cells, we identify a special group of eRNAs that are essential for estrogen-induced transcriptional repression. Using eRNAs of TM4SF1 and EFEMP1 as the paradigms, we find that these RNA molecules not only stabilize promoter-enhancer interactions but also recruit liganded estrogen receptor α (ERα) to particular enhancer regions, facilitate the formation of a functional transcriptional complex, and cause gene silencing. Interestingly, ERα is shown to directly bind with eRNAs by its DNA-binding domain. These eRNAs help with the formation of a specific ERα-centered transcriptional complex and promote the association of the histone demethylase KDM2A, which dismisses RNA polymerase II from designated enhancers and suppresses the transcription of target genes. Our work demonstrates a complete mechanism underlying the action of eRNAs in modulating and refining the locus-specific transcriptional program.

AB - The function of enhancer RNAs (eRNAs) in transcriptional regulation remains obscure. By analyzing the genome-wide nascent transcript profiles in breast cancer cells, we identify a special group of eRNAs that are essential for estrogen-induced transcriptional repression. Using eRNAs of TM4SF1 and EFEMP1 as the paradigms, we find that these RNA molecules not only stabilize promoter-enhancer interactions but also recruit liganded estrogen receptor α (ERα) to particular enhancer regions, facilitate the formation of a functional transcriptional complex, and cause gene silencing. Interestingly, ERα is shown to directly bind with eRNAs by its DNA-binding domain. These eRNAs help with the formation of a specific ERα-centered transcriptional complex and promote the association of the histone demethylase KDM2A, which dismisses RNA polymerase II from designated enhancers and suppresses the transcription of target genes. Our work demonstrates a complete mechanism underlying the action of eRNAs in modulating and refining the locus-specific transcriptional program.

KW - ERα signaling

KW - enhancer RNA

KW - enhancer activity regulation

KW - transcriptional repression

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Enhancer RNAs Mediate Estrogen-Induced Decommissioning of Selective Enhancers by Recruiting ERα and Its Cofactor

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ASJC Scopus subject areas

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