Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation

Joo Hyung Lee; Ruoyu Wang; Feng Xiong; Joanna Krakowiak; Zian Liao; Phuoc T. Nguyen; Elena V. Moroz-Omori; Jiaofang Shao; Xiaoyu Zhu; Michael J. Bolt; Haoyi Wu; Pankaj K. Singh; Mingjun Bi; Caleb J. Shi; Naadir Jamal; Guojie Li; Ragini Mistry; Sung Yun Jung; Kuang Lei Tsai; Josephine C. Ferreon; Fabio Stossi; Amedeo Caflisch; Zhijie Liu; Michael A. Mancini; Wenbo Li

doi:10.1016/j.molcel.2021.07.024

Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation

Joo Hyung Lee, Ruoyu Wang, Feng Xiong, Joanna Krakowiak, Zian Liao, Phuoc T. Nguyen, Elena V. Moroz-Omori, Jiaofang Shao, Xiaoyu Zhu, Michael J. Bolt, Haoyi Wu, Pankaj K. Singh, Mingjun Bi, Caleb J. Shi, Naadir Jamal, Guojie Li, Ragini Mistry, Sung Yun Jung, Kuang Lei Tsai, Josephine C. FerreonFabio Stossi, Amedeo Caflisch, Zhijie Liu, Michael A. Mancini, Wenbo Li

Department of Molecular Medicine

Producción científica: Article › revisión exhaustiva

183 Citas (Scopus)

Resumen

The mechanistic understanding of nascent RNAs in transcriptional control remains limited. Here, by a high sensitivity method methylation-inscribed nascent transcripts sequencing (MINT-seq), we characterized the landscapes of N6-methyladenosine (m6A) on nascent RNAs. We uncover heavy but selective m6A deposition on nascent RNAs produced by transcription regulatory elements, including promoter upstream antisense RNAs and enhancer RNAs (eRNAs), which positively correlates with their length, inclusion of m6A motif, and RNA abundances. m6A-eRNAs mark highly active enhancers, where they recruit nuclear m6A reader YTHDC1 to phase separate into liquid-like condensates, in a manner dependent on its C terminus intrinsically disordered region and arginine residues. The m6A-eRNA/YTHDC1 condensate co-mixes with and facilitates the formation of BRD4 coactivator condensate. Consequently, YTHDC1 depletion diminished BRD4 condensate and its recruitment to enhancers, resulting in inhibited enhancer and gene activation. We propose that chemical modifications of eRNAs together with reader proteins play broad roles in enhancer activation and gene transcriptional control.

Idioma original	English (US)
Páginas (desde-hasta)	3368-3385.e9
Publicación	Molecular Cell
Volumen	81
N.º	16
DOI	https://doi.org/10.1016/j.molcel.2021.07.024
Estado	Published - ago 19 2021

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2021.07.024

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Lee, J. H., Wang, R., Xiong, F., Krakowiak, J., Liao, Z., Nguyen, P. T., Moroz-Omori, E. V., Shao, J., Zhu, X., Bolt, M. J., Wu, H., Singh, P. K., Bi, M., Shi, C. J., Jamal, N., Li, G., Mistry, R., Jung, S. Y., Tsai, K. L., ... Li, W. (2021). Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation. Molecular Cell, 81(16), 3368-3385.e9. https://doi.org/10.1016/j.molcel.2021.07.024

Lee, JH, Wang, R, Xiong, F, Krakowiak, J, Liao, Z, Nguyen, PT, Moroz-Omori, EV, Shao, J, Zhu, X, Bolt, MJ, Wu, H, Singh, PK, Bi, M, Shi, CJ, Jamal, N, Li, G, Mistry, R, Jung, SY, Tsai, KL, Ferreon, JC, Stossi, F, Caflisch, A, Liu, Z, Mancini, MA & Li, W 2021, 'Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation', Molecular Cell, vol. 81, n.º 16, pp. 3368-3385.e9. https://doi.org/10.1016/j.molcel.2021.07.024

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title = "Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation",

abstract = "The mechanistic understanding of nascent RNAs in transcriptional control remains limited. Here, by a high sensitivity method methylation-inscribed nascent transcripts sequencing (MINT-seq), we characterized the landscapes of N6-methyladenosine (m6A) on nascent RNAs. We uncover heavy but selective m6A deposition on nascent RNAs produced by transcription regulatory elements, including promoter upstream antisense RNAs and enhancer RNAs (eRNAs), which positively correlates with their length, inclusion of m6A motif, and RNA abundances. m6A-eRNAs mark highly active enhancers, where they recruit nuclear m6A reader YTHDC1 to phase separate into liquid-like condensates, in a manner dependent on its C terminus intrinsically disordered region and arginine residues. The m6A-eRNA/YTHDC1 condensate co-mixes with and facilitates the formation of BRD4 coactivator condensate. Consequently, YTHDC1 depletion diminished BRD4 condensate and its recruitment to enhancers, resulting in inhibited enhancer and gene activation. We propose that chemical modifications of eRNAs together with reader proteins play broad roles in enhancer activation and gene transcriptional control.",

keywords = "BRD4, MINT-Seq, RNA m6A methylation, YTHDC1, enhancer RNAs, enhancers, epitranscriptome, nuclear condensate, phase separation, transcriptional activation",

author = "Lee, {Joo Hyung} and Ruoyu Wang and Feng Xiong and Joanna Krakowiak and Zian Liao and Nguyen, {Phuoc T.} and Moroz-Omori, {Elena V.} and Jiaofang Shao and Xiaoyu Zhu and Bolt, {Michael J.} and Haoyi Wu and Singh, {Pankaj K.} and Mingjun Bi and Shi, {Caleb J.} and Naadir Jamal and Guojie Li and Ragini Mistry and Jung, {Sung Yun} and Tsai, {Kuang Lei} and Ferreon, {Josephine C.} and Fabio Stossi and Amedeo Caflisch and Zhijie Liu and Mancini, {Michael A.} and Wenbo Li",

note = "Publisher Copyright: {\textcopyright} 2021",

year = "2021",

month = aug,

day = "19",

doi = "10.1016/j.molcel.2021.07.024",

language = "English (US)",

volume = "81",

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T1 - Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation

AU - Lee, Joo Hyung

AU - Wang, Ruoyu

AU - Xiong, Feng

AU - Krakowiak, Joanna

AU - Liao, Zian

AU - Nguyen, Phuoc T.

AU - Moroz-Omori, Elena V.

AU - Shao, Jiaofang

AU - Zhu, Xiaoyu

AU - Bolt, Michael J.

AU - Wu, Haoyi

AU - Singh, Pankaj K.

AU - Bi, Mingjun

AU - Shi, Caleb J.

AU - Jamal, Naadir

AU - Li, Guojie

AU - Mistry, Ragini

AU - Jung, Sung Yun

AU - Tsai, Kuang Lei

AU - Ferreon, Josephine C.

AU - Stossi, Fabio

AU - Caflisch, Amedeo

AU - Liu, Zhijie

AU - Mancini, Michael A.

AU - Li, Wenbo

PY - 2021/8/19

Y1 - 2021/8/19

N2 - The mechanistic understanding of nascent RNAs in transcriptional control remains limited. Here, by a high sensitivity method methylation-inscribed nascent transcripts sequencing (MINT-seq), we characterized the landscapes of N6-methyladenosine (m6A) on nascent RNAs. We uncover heavy but selective m6A deposition on nascent RNAs produced by transcription regulatory elements, including promoter upstream antisense RNAs and enhancer RNAs (eRNAs), which positively correlates with their length, inclusion of m6A motif, and RNA abundances. m6A-eRNAs mark highly active enhancers, where they recruit nuclear m6A reader YTHDC1 to phase separate into liquid-like condensates, in a manner dependent on its C terminus intrinsically disordered region and arginine residues. The m6A-eRNA/YTHDC1 condensate co-mixes with and facilitates the formation of BRD4 coactivator condensate. Consequently, YTHDC1 depletion diminished BRD4 condensate and its recruitment to enhancers, resulting in inhibited enhancer and gene activation. We propose that chemical modifications of eRNAs together with reader proteins play broad roles in enhancer activation and gene transcriptional control.

AB - The mechanistic understanding of nascent RNAs in transcriptional control remains limited. Here, by a high sensitivity method methylation-inscribed nascent transcripts sequencing (MINT-seq), we characterized the landscapes of N6-methyladenosine (m6A) on nascent RNAs. We uncover heavy but selective m6A deposition on nascent RNAs produced by transcription regulatory elements, including promoter upstream antisense RNAs and enhancer RNAs (eRNAs), which positively correlates with their length, inclusion of m6A motif, and RNA abundances. m6A-eRNAs mark highly active enhancers, where they recruit nuclear m6A reader YTHDC1 to phase separate into liquid-like condensates, in a manner dependent on its C terminus intrinsically disordered region and arginine residues. The m6A-eRNA/YTHDC1 condensate co-mixes with and facilitates the formation of BRD4 coactivator condensate. Consequently, YTHDC1 depletion diminished BRD4 condensate and its recruitment to enhancers, resulting in inhibited enhancer and gene activation. We propose that chemical modifications of eRNAs together with reader proteins play broad roles in enhancer activation and gene transcriptional control.

KW - BRD4

KW - MINT-Seq

KW - RNA m6A methylation

KW - YTHDC1

KW - enhancer RNAs

KW - enhancers

KW - epitranscriptome

KW - nuclear condensate

KW - phase separation

KW - transcriptional activation

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DO - 10.1016/j.molcel.2021.07.024

M3 - Article

C2 - 34375583

AN - SCOPUS:85112835136

SN - 1097-2765

VL - 81

SP - 3368-3385.e9

JO - Molecular Cell

JF - Molecular Cell

IS - 16

ER -

Enhancer RNA m6A methylation facilitates transcriptional condensate formation and gene activation

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