GSE1 links the HDAC1/CoREST co-repressor complex to DNA damage

Terezia Vcelkova; Wolfgang Reiter; Martha Zylka; David M Hollenstein; Stefan Schuckert; Markus Hartl; Christian Seiser

doi:10.1093/nar/gkad911

GSE1 links the HDAC1/CoREST co-repressor complex to DNA damage

Terezia Vcelkova
, Wolfgang Reiter
, Martha Zylka
, David M Hollenstein
, Stefan Schuckert
, Markus Hartl
, Christian Seiser

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

Post-translational modifications of histones are important regulators of the DNA damage response (DDR). By using affinity purification mass spectrometry (AP-MS) we discovered that genetic suppressor element 1 (GSE1) forms a complex with the HDAC1/CoREST deacetylase/demethylase co-repressor complex. In-depth phosphorylome analysis revealed that loss of GSE1 results in impaired DDR, ATR signalling and γH2AX formation upon DNA damage induction. Altered profiles of ATR target serine-glutamine motifs (SQ) on DDR-related hallmark proteins point to a defect in DNA damage sensing. In addition, GSE1 knock-out cells show hampered DNA damage-induced phosphorylation on SQ motifs of regulators of histone post-translational modifications, suggesting altered histone modification. While loss of GSE1 does not affect the histone deacetylation activity of CoREST, GSE1 appears to be essential for binding of the deubiquitinase USP22 to CoREST and for the deubiquitination of H2B K120 in response to DNA damage. The combination of deacetylase, demethylase, and deubiquitinase activity makes the USP22-GSE1-CoREST subcomplex a multi-enzymatic eraser that seems to play an important role during DDR. Since GSE1 has been previously associated with cancer progression and survival our findings are potentially of high medical relevance.

Originalsprache	Englisch
Seiten (von - bis)	11748-11769
Seitenumfang	22
Fachzeitschrift	Nucleic Acids Research
Jahrgang	51
Ausgabenummer	21
DOIs	https://doi.org/10.1093/nar/gkad911
Publikationsstatus	Veröffentlicht - 27 Nov. 2023

Fördermittel

Austrian Science Fund [SFB F70 to M.H. and C.S. and P34998 to C.S.); T.V. was a fellow of the International PhD program DK W1261 \u2018Signalling Mechanisms in Cellular Homeostasis (SMICH)\u2019 supported by the Austrian Science Fund. Funding for open access charge: Austrian Science Fund.

ÖFOS 2012

106002 Biochemie
106037 Proteomik
106052 Zellbiologie

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

Zugriff auf Dokument

10.1093/nar/gkad911

https://phaidra.univie.ac.at/o:2071184Lizenz: CC BY 4.0

Andere Dateien und Links

Verknüpfung zur Publikation in Scopus

SMICH: Signalwege zur Regulation der zellulären Homäostase
Baccarini, M. (Projektleiter*in), Leeb, M. (Projektleiter*in), Oppitz, C. (Projektkoordinator*in), Hügel, T. (Projektkoordinator*in), Baccarini, M. (Kooperationspartner*in), Leeb, M. (Kooperationspartner*in), Decker, T. (Kooperationspartner*in), Kovarik, P. (Kooperationspartner*in), Kraft, C. (Kooperationspartner*in), Martens, S. (Co-Projektleiter*in), Martens, S. (Kooperationspartner*in), Versteeg, G. (Kooperationspartner*in), Versteeg, G. (Co-Projektleiter*in), Bücker, C. (Kooperationspartner*in), Merino Aceituno, S. (Kooperationspartner*in), Leonard, T. (Kooperationspartner*in), Karagöz, G. E. (Projektkoordinator*in), Seiser, C. (Kooperationspartner*in), Foisner, R. (Kooperationspartner*in), Otsuka, S. (Kooperationspartner*in) & Urban Avellaneda, N. (Projektleiter*in)
1/05/17 → 30/04/25
Projekt: Forschungsförderung

Zitationsweisen

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abstract = "Post-translational modifications of histones are important regulators of the DNA damage response (DDR). By using affinity purification mass spectrometry (AP-MS) we discovered that genetic suppressor element 1 (GSE1) forms a complex with the HDAC1/CoREST deacetylase/demethylase co-repressor complex. In-depth phosphorylome analysis revealed that loss of GSE1 results in impaired DDR, ATR signalling and γH2AX formation upon DNA damage induction. Altered profiles of ATR target serine-glutamine motifs (SQ) on DDR-related hallmark proteins point to a defect in DNA damage sensing. In addition, GSE1 knock-out cells show hampered DNA damage-induced phosphorylation on SQ motifs of regulators of histone post-translational modifications, suggesting altered histone modification. While loss of GSE1 does not affect the histone deacetylation activity of CoREST, GSE1 appears to be essential for binding of the deubiquitinase USP22 to CoREST and for the deubiquitination of H2B K120 in response to DNA damage. The combination of deacetylase, demethylase, and deubiquitinase activity makes the USP22-GSE1-CoREST subcomplex a multi-enzymatic eraser that seems to play an important role during DDR. Since GSE1 has been previously associated with cancer progression and survival our findings are potentially of high medical relevance.",

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GSE1 links the HDAC1/CoREST co-repressor complex to DNA damage

Abstract

Fördermittel

ÖFOS 2012

UN SDGs

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

SMICH: Signalwege zur Regulation der zellulären Homäostase

Zitationsweisen