A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation

A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation

DNA double-strand breaks (DSB) elicit a ubiquitylation cascade that controls DNA repair pathway choice. This cascade involves the ubiquitylation of histone H2A by the RNF168 ligase and the subsequent recruitment of RIF1, which suppresses homologous recombination (HR) in G1 cells. The RIF1-dependent...

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Main Authors: Martijn S Luijsterburg, Dimitris Typas, Marie-Christine Caron, Wouter W Wiegant, Diana van den Heuvel, Rick A Boonen, Anthony M Couturier, Leon H Mullenders, Jean-Yves Masson, Haico van Attikum
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2017-02-01
Series:eLife
Subjects:
DNA repair
homologous recombination
PALB2
RNF168
chromatin
ubiquitylation
Online Access:https://elifesciences.org/articles/20922
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spelling doaj-8ceed8f982b241459d4fdb5dea8669752021-05-05T13:17:25ZengeLife Sciences Publications LtdeLife2050-084X2017-02-01610.7554/eLife.20922A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylationMartijn S Luijsterburg0Dimitris Typas1Marie-Christine Caron2Wouter W Wiegant3Diana van den Heuvel4Rick A Boonen5Anthony M Couturier6https://orcid.org/0000-0002-1512-9558Leon H Mullenders7Jean-Yves Masson8Haico van Attikum9https://orcid.org/0000-0001-8590-0240Department of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsGenome Stability Laboratory, CHU de Québec Research Center, HDQ Pavilion, Oncology Axis, McMahon, Québec City, Canada; Department of Molecular Biology, Medical Biochemistry and Pathology, Laval University Cancer Research Center, Québec City, CanadaDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsGenome Stability Laboratory, CHU de Québec Research Center, HDQ Pavilion, Oncology Axis, McMahon, Québec City, Canada; Department of Molecular Biology, Medical Biochemistry and Pathology, Laval University Cancer Research Center, Québec City, CanadaDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsGenome Stability Laboratory, CHU de Québec Research Center, HDQ Pavilion, Oncology Axis, McMahon, Québec City, Canada; Department of Molecular Biology, Medical Biochemistry and Pathology, Laval University Cancer Research Center, Québec City, CanadaDepartment of Human Genetics, Leiden University Medical Center, Leiden, The NetherlandsDNA double-strand breaks (DSB) elicit a ubiquitylation cascade that controls DNA repair pathway choice. This cascade involves the ubiquitylation of histone H2A by the RNF168 ligase and the subsequent recruitment of RIF1, which suppresses homologous recombination (HR) in G1 cells. The RIF1-dependent suppression is relieved in S/G2 cells, allowing PALB2-driven HR to occur. With the inhibitory impact of RIF1 relieved, it remains unclear how RNF168-induced ubiquitylation influences HR. Here, we uncover that RNF168 links the HR machinery to H2A ubiquitylation in S/G2 cells. We show that PALB2 indirectly recognizes histone ubiquitylation by physically associating with ubiquitin-bound RNF168. This direct interaction is mediated by the newly identified PALB2-interacting domain (PID) in RNF168 and the WD40 domain in PALB2, and drives DNA repair by facilitating the assembly of PALB2-containing HR complexes at DSBs. Our findings demonstrate that RNF168 couples PALB2-dependent HR to H2A ubiquitylation to promote DNA repair and preserve genome integrity.https://elifesciences.org/articles/20922DNA repairhomologous recombinationPALB2RNF168chromatinubiquitylation
collection DOAJ
language English
format Article
sources DOAJ
author Martijn S Luijsterburg
Dimitris Typas
Marie-Christine Caron
Wouter W Wiegant
Diana van den Heuvel
Rick A Boonen
Anthony M Couturier
Leon H Mullenders
Jean-Yves Masson
Haico van Attikum
spellingShingle Martijn S Luijsterburg
Dimitris Typas
Marie-Christine Caron
Wouter W Wiegant
Diana van den Heuvel
Rick A Boonen
Anthony M Couturier
Leon H Mullenders
Jean-Yves Masson
Haico van Attikum
A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
eLife
DNA repair
homologous recombination
PALB2
RNF168
chromatin
ubiquitylation
author_facet Martijn S Luijsterburg
Dimitris Typas
Marie-Christine Caron
Wouter W Wiegant
Diana van den Heuvel
Rick A Boonen
Anthony M Couturier
Leon H Mullenders
Jean-Yves Masson
Haico van Attikum
author_sort Martijn S Luijsterburg
title A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
title_short A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
title_full A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
title_fullStr A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
title_full_unstemmed A PALB2-interacting domain in RNF168 couples homologous recombination to DNA break-induced chromatin ubiquitylation
title_sort palb2-interacting domain in rnf168 couples homologous recombination to dna break-induced chromatin ubiquitylation
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2017-02-01
description DNA double-strand breaks (DSB) elicit a ubiquitylation cascade that controls DNA repair pathway choice. This cascade involves the ubiquitylation of histone H2A by the RNF168 ligase and the subsequent recruitment of RIF1, which suppresses homologous recombination (HR) in G1 cells. The RIF1-dependent suppression is relieved in S/G2 cells, allowing PALB2-driven HR to occur. With the inhibitory impact of RIF1 relieved, it remains unclear how RNF168-induced ubiquitylation influences HR. Here, we uncover that RNF168 links the HR machinery to H2A ubiquitylation in S/G2 cells. We show that PALB2 indirectly recognizes histone ubiquitylation by physically associating with ubiquitin-bound RNF168. This direct interaction is mediated by the newly identified PALB2-interacting domain (PID) in RNF168 and the WD40 domain in PALB2, and drives DNA repair by facilitating the assembly of PALB2-containing HR complexes at DSBs. Our findings demonstrate that RNF168 couples PALB2-dependent HR to H2A ubiquitylation to promote DNA repair and preserve genome integrity.
topic DNA repair
homologous recombination
PALB2
RNF168
chromatin
ubiquitylation
url https://elifesciences.org/articles/20922
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