Lamin B1 sequesters 53BP1 to control its recruitment to DNA damage

Double-strand breaks (DSBs) are harmful lesions and a major cause of genome instability. Studies have suggested a link between the nuclear envelope and the DNA damage response. Here, we show that lamin B1, a major component of the nuclear envelope, interacts directly with 53BP1 protein, which plays...

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Bibliographic Details
Published in:Science advances 2021-08, Vol.7 (35)
Main Authors: Etourneaud, Laure, Moussa, Angela, Rass, Emilie, Genet, Diane, Willaume, Simon, Chabance-Okumura, Caroline, Wanschoor, Paul, Picotto, Julien, Thézé, Benoît, Dépagne, Jordane, Veaute, Xavier, Dizet, Eléa, Busso, Didier, Barascu, Aurélia, Irbah, Lamya, Kortulewski, Thierry, Campalans, Anna, Le Chalony, Catherine, Zinn-Justin, Sophie, Scully, Ralph, Pennarun, Gaëlle, Bertrand, Pascale
Format: Article
Language:English
Subjects:
DNA Breaks, Double-Stranded
DNA Damage
DNA End-Joining Repair
Genetics
Lamin Type B - genetics
Lamin Type B - metabolism
Molecular Biology
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Summary:Double-strand breaks (DSBs) are harmful lesions and a major cause of genome instability. Studies have suggested a link between the nuclear envelope and the DNA damage response. Here, we show that lamin B1, a major component of the nuclear envelope, interacts directly with 53BP1 protein, which plays a pivotal role in the DSB repair. This interaction is dissociated after DNA damage. Lamin B1 overexpression impedes 53BP1 recruitment to DNA damage sites and leads to a persistence of DNA damage, a defect in nonhomologous end joining and an increased sensitivity to DSBs. The identification of interactions domains between lamin B1 and 53BP1 allows us to demonstrate that the defect of 53BP1 recruitment and the DSB persistence upon lamin B1 overexpression are due to sequestration of 53BP1 by lamin B1. This study highlights lamin B1 as a factor controlling the recruitment of 53BP1 to DNA damage sites upon injury.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abb3799