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Literature DB >> 34131081

A heat shock-responsive lncRNA Heat acts as a HSF1-directed transcriptional brake via m⁶A modification.

Quanquan Ji¹, Xin Zong¹, Yuanhui Mao¹, Shu-Bing Qian².

Abstract

Long noncoding RNAs (lncRNAs) are key regulators of gene expression in diverse cellular contexts and biological processes. Given the surprising range of shapes and sizes, how distinct lncRNAs achieve functional specificity remains incompletely understood. Here, we identified a heat shock-inducible lncRNA, Heat, in mouse cells that acts as a transcriptional brake to restrain stress gene expression. Functional characterization reveals that Heat directly binds to heat shock transcription factor 1 (HSF1), thereby targeting stress genes in a trans-acting manner. Intriguingly, Heat is heavily methylated in the form of m6A. Although dispensable for HSF1 binding, Heat methylation is required for silencing stress genes to attenuate heat shock response. Consistently, m6A depletion results in prolonged activation of stress genes. Furthermore, Heat mediates these effects via the nuclear m6A reader YTHDC1, forming a transcriptional silencing complex for stress genes. Our study reveals a crucial role of nuclear epitranscriptome in the transcriptional regulation of heat shock response.

Entities: Chemical

Keywords: RNA modification; heat shock stress; long noncoding RNA

Mesh：

Substances：

Year: 2021 PMID： 34131081 PMCID： PMC8237593 DOI： 10.1073/pnas.2102175118

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

43 in total

1. The long noncoding RNAs NEAT1 and MALAT1 bind active chromatin sites.

Authors: Jason A West; Christopher P Davis; Hongjae Sunwoo; Matthew D Simon; Ruslan I Sadreyev; Peggy I Wang; Michael Y Tolstorukov; Robert E Kingston
Journal: Mol Cell Date: 2014-08-21 Impact factor: 17.970

Review 2. Genomic gems: SINE RNAs regulate mRNA production.

Authors: Steven L Ponicsan; Jennifer F Kugel; James A Goodrich
Journal: Curr Opin Genet Dev Date: 2010-02-20 Impact factor: 5.578

3. mRNA quality control is bypassed for immediate export of stress-responsive transcripts.

Authors: Gesa Zander; Alexandra Hackmann; Lysann Bender; Daniel Becker; Thomas Lingner; Gabriela Salinas; Heike Krebber
Journal: Nature Date: 2016-12-12 Impact factor: 49.962

4. Native elongating transcript sequencing reveals human transcriptional activity at nucleotide resolution.

Authors: Andreas Mayer; Julia di Iulio; Seth Maleri; Umut Eser; Jeff Vierstra; Alex Reynolds; Richard Sandstrom; John A Stamatoyannopoulos; L Stirling Churchman
Journal: Cell Date: 2015-04-23 Impact factor: 41.582

5. MEG3 long noncoding RNA regulates the TGF-β pathway genes through formation of RNA-DNA triplex structures.

Authors: Tanmoy Mondal; Santhilal Subhash; Roshan Vaid; Stefan Enroth; Sireesha Uday; Björn Reinius; Sanhita Mitra; Arif Mohammed; Alva Rani James; Emily Hoberg; Aristidis Moustakas; Ulf Gyllensten; Steven J M Jones; Claes M Gustafsson; Andrew H Sims; Fredrik Westerlund; Eduardo Gorab; Chandrasekhar Kanduri
Journal: Nat Commun Date: 2015-07-24 Impact factor: 14.919

6. Multiplexable, locus-specific targeting of long RNAs with CRISPR-Display.

Authors: David M Shechner; Ezgi Hacisuleyman; Scott T Younger; John L Rinn
Journal: Nat Methods Date: 2015-06-01 Impact factor: 28.547

7. Optimizing the fragment complementation of APEX2 for detection of specific protein-protein interactions in live cells.

Authors: Miaomiao Xue; Junjie Hou; Linlin Wang; Dongwan Cheng; Jingze Lu; Li Zheng; Tao Xu
Journal: Sci Rep Date: 2017-09-27 Impact factor: 4.379

8. m⁶A in mRNA coding regions promotes translation via the RNA helicase-containing YTHDC2.

Authors: Yuanhui Mao; Leiming Dong; Xiao-Min Liu; Jiayin Guo; Honghui Ma; Bin Shen; Shu-Bing Qian
Journal: Nat Commun Date: 2019-11-25 Impact factor: 14.919

9. HSF1 drives a transcriptional program distinct from heat shock to support highly malignant human cancers.

Authors: Marc L Mendillo; Sandro Santagata; Martina Koeva; George W Bell; Rong Hu; Rulla M Tamimi; Ernest Fraenkel; Tan A Ince; Luke Whitesell; Susan Lindquist
Journal: Cell Date: 2012-08-03 Impact factor: 41.582

10. YTHDC1 mediates nuclear export of N⁶-methyladenosine methylated mRNAs.

Authors: Ian A Roundtree; Guan-Zheng Luo; Zijie Zhang; Xiao Wang; Tao Zhou; Yiquang Cui; Jiahao Sha; Xingxu Huang; Laura Guerrero; Phil Xie; Emily He; Bin Shen; Chuan He
Journal: Elife Date: 2017-10-06 Impact factor: 8.140

6 in total

1. A New Long Noncoding RNA, MAHAT, Inhibits Replication of Porcine Reproductive and Respiratory Syndrome Virus by Recruiting DDX6 To Bind to ZNF34 and Promote an Innate Immune Response.

Authors: Yuming Liu; Xing Liu; Juan Bai; Yangyang Sun; Hans Nauwynck; Xianwei Wang; Yuanqi Yang; Ping Jiang
Journal: J Virol Date: 2022-09-08 Impact factor: 6.549

A heat shock-responsive lncRNA Heat acts as a HSF1-directed transcriptional brake via m⁶A modification.

1. The long noncoding RNAs NEAT1 and MALAT1 bind active chromatin sites.

Review 2. Genomic gems: SINE RNAs regulate mRNA production.

3. mRNA quality control is bypassed for immediate export of stress-responsive transcripts.

4. Native elongating transcript sequencing reveals human transcriptional activity at nucleotide resolution.

5. MEG3 long noncoding RNA regulates the TGF-β pathway genes through formation of RNA-DNA triplex structures.

6. Multiplexable, locus-specific targeting of long RNAs with CRISPR-Display.

7. Optimizing the fragment complementation of APEX2 for detection of specific protein-protein interactions in live cells.

8. m⁶A in mRNA coding regions promotes translation via the RNA helicase-containing YTHDC2.

9. HSF1 drives a transcriptional program distinct from heat shock to support highly malignant human cancers.

10. YTHDC1 mediates nuclear export of N⁶-methyladenosine methylated mRNAs.

1. A New Long Noncoding RNA, MAHAT, Inhibits Replication of Porcine Reproductive and Respiratory Syndrome Virus by Recruiting DDX6 To Bind to ZNF34 and Promote an Innate Immune Response.

Review 2. m⁶A RNA modification in transcription regulation.

3. Dynamic Transcriptome Profiling Reveals LncRNA-Centred Regulatory Networks in the Modulation of Pluripotency.

Review 4. Mechanisms tailoring the expression of heat shock proteins to proteostasis challenges.

5. Versatile functions of RNA m6A machinery on chromatin.

Review 6. Modulation of Phase Separation by RNA: A Glimpse on N⁶-Methyladenosine Modification.

Review 2. Genomic gems: SINE RNAs regulate mRNA production.

Review 2. m6A RNA modification in transcription regulation.

Review 4. Mechanisms tailoring the expression of heat shock proteins to proteostasis challenges.

Review 6. Modulation of Phase Separation by RNA: A Glimpse on N6-Methyladenosine Modification.

Review 2. m⁶A RNA modification in transcription regulation.

Review 6. Modulation of Phase Separation by RNA: A Glimpse on N⁶-Methyladenosine Modification.