Literature DB >> 31076518

SETD1A Methyltransferase Is Physically and Functionally Linked to the DNA Damage Repair Protein RAD18.

Manal Alsulami1,2, Nayla Munawar1,3, Eugene Dillon2, Giorgio Oliviero1,2, Kieran Wynne1,4, Mona Alsolami1,2, Catherine Moss2, Peadar Ó Gaora1,2, Fergal O'Meara1,2, David Cotter5, Gerard Cagney6,2.   

Abstract

SETD1A is a SET domain-containing methyltransferase involved in epigenetic regulation of transcription. It is the main catalytic component of a multiprotein complex that methylates lysine 4 of histone H3, a histone mark associated with gene activation. In humans, six related protein complexes with partly nonredundant cellular functions share several protein subunits but are distinguished by unique catalytic SET-domain proteins. We surveyed physical interactions of the SETD1A-complex using endogenous immunoprecipitation followed by label-free quantitative proteomics on three subunits: SETD1A, RBBP5, and ASH2L. Surprisingly, SETD1A, but not RBBP5 or ASH2L, was found to interact with the DNA damage repair protein RAD18. Reciprocal RAD18 immunoprecipitation experiments confirmed the interaction with SETD1A, whereas size exclusion and protein network analysis suggested an interaction independent of the main SETD1A complex. We found evidence of SETD1A and RAD18 influence on mutual gene expression levels. Further, knockdown of the genes individually showed a DNA damage repair phenotype, whereas simultaneous knockdown resulted in an epistatic effect. This adds to a growing body of work linking epigenetic enzymes to processes involved in genome stability.
© 2019 Alsulami et al.

Entities:  

Keywords:  DNA damage repair; Epigenetics; Macromolecular complex analysis; Methylation*; Proliferation*; Protein-Protein Interactions*; SET/MLL Complex

Mesh:

Substances:

Year:  2019        PMID: 31076518      PMCID: PMC6601208          DOI: 10.1074/mcp.RA119.001518

Source DB:  PubMed          Journal:  Mol Cell Proteomics        ISSN: 1535-9476            Impact factor:   5.911


  37 in total

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2.  Global quantification of mammalian gene expression control.

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Journal:  Nature       Date:  2011-05-19       Impact factor: 49.962

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Authors:  M Daniel Ricketts; Joseph Han; Mary R Szurgot; Ronen Marmorstein
Journal:  Protein Sci       Date:  2018-12-13       Impact factor: 6.725

4.  Feedback control of Set1 protein levels is important for proper H3K4 methylation patterns.

Authors:  Luis M Soares; Marta Radman-Livaja; Sherry G Lin; Oliver J Rando; Stephen Buratowski
Journal:  Cell Rep       Date:  2014-03-06       Impact factor: 9.423

5.  EZH2 promotes degradation of stalled replication forks by recruiting MUS81 through histone H3 trimethylation.

Authors:  Beatrice Rondinelli; Ewa Gogola; Hatice Yücel; Alexandra A Duarte; Marieke van de Ven; Roxanne van der Sluijs; Panagiotis A Konstantinopoulos; Jos Jonkers; Raphaël Ceccaldi; Sven Rottenberg; Alan D D'Andrea
Journal:  Nat Cell Biol       Date:  2017-10-16       Impact factor: 28.824

6.  Histone modifications at human enhancers reflect global cell-type-specific gene expression.

Authors:  Nathaniel D Heintzman; Gary C Hon; R David Hawkins; Pouya Kheradpour; Alexander Stark; Lindsey F Harp; Zhen Ye; Leonard K Lee; Rhona K Stuart; Christina W Ching; Keith A Ching; Jessica E Antosiewicz-Bourget; Hui Liu; Xinmin Zhang; Roland D Green; Victor V Lobanenkov; Ron Stewart; James A Thomson; Gregory E Crawford; Manolis Kellis; Bing Ren
Journal:  Nature       Date:  2009-03-18       Impact factor: 49.962

7.  Molecular regulation of H3K4 trimethylation by Wdr82, a component of human Set1/COMPASS.

Authors:  Min Wu; Peng Fei Wang; Jung Shin Lee; Skylar Martin-Brown; Laurence Florens; Michael Washburn; Ali Shilatifard
Journal:  Mol Cell Biol       Date:  2008-10-06       Impact factor: 4.272

8.  A PHD finger of NURF couples histone H3 lysine 4 trimethylation with chromatin remodelling.

Authors:  Joanna Wysocka; Tomek Swigut; Hua Xiao; Thomas A Milne; So Yeon Kwon; Joe Landry; Monika Kauer; Alan J Tackett; Brian T Chait; Paul Badenhorst; Carl Wu; C David Allis
Journal:  Nature       Date:  2006-05-21       Impact factor: 49.962

9.  2016 update of the PRIDE database and its related tools.

Authors:  Juan Antonio Vizcaíno; Attila Csordas; Noemi del-Toro; José A Dianes; Johannes Griss; Ilias Lavidas; Gerhard Mayer; Yasset Perez-Riverol; Florian Reisinger; Tobias Ternent; Qing-Wei Xu; Rui Wang; Henning Hermjakob
Journal:  Nucleic Acids Res       Date:  2015-11-02       Impact factor: 16.971

10.  msVolcano: A flexible web application for visualizing quantitative proteomics data.

Authors:  Sukhdeep Singh; Marco Y Hein; A Francis Stewart
Journal:  Proteomics       Date:  2016-09       Impact factor: 3.984
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  5 in total

Review 1.  DNA damage response and repair pathway modulation by non-histone protein methylation: implications in neurodegeneration.

Authors:  Madhusoodanan Urulangodi; Abhishek Mohanty
Journal:  J Cell Commun Signal       Date:  2019-11-20       Impact factor: 5.782

Review 2.  A chromatin perspective on metabolic and genotoxic impacts on hematopoietic stem and progenitor cells.

Authors:  Zhenhua Yang; Hao Jiang
Journal:  Cell Mol Life Sci       Date:  2020-04-21       Impact factor: 9.261

3.  Anlotinib suppresses MLL-rearranged acute myeloid leukemia cell growth by inhibiting SETD1A/AKT-mediated DNA damage response.

Authors:  Jinzhu Chen; Juan Feng; Zhihong Fang; Jing Ye; Qinwei Chen; Qiuling Chen; Kai Chen; Xiaoming Xiong; Guowei Li; Haihan Song; Bing Xu
Journal:  Am J Transl Res       Date:  2021-03-15       Impact factor: 4.060

Review 4.  Resolving DNA Damage: Epigenetic Regulation of DNA Repair.

Authors:  Panagiotis Karakaidos; Dimitris Karagiannis; Theodoros Rampias
Journal:  Molecules       Date:  2020-05-27       Impact factor: 4.411

Review 5.  SET1/MLL family of proteins: functions beyond histone methylation.

Authors:  Jeyapal Sugeedha; Jyoti Gautam; Shweta Tyagi
Journal:  Epigenetics       Date:  2020-08-31       Impact factor: 4.528
  5 in total

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