53BP1 Mediates Productive and Mutagenic DNA Repair through Distinct Phosphoprotein Interactions | Zendy

Elsa Callén | Zendy; Michela Di Virgilio | Zendy; Michael J. Kruhlak | Zendy; Maria Nieto-Soler | Zendy; Nancy Wong | Zendy; Hua-Tang Chen | Zendy; Robert B. Faryabi | Zendy; Federica Polato | Zendy; Margarida A. Santos | Zendy; Linda M. Starnes | Zendy; Duane R. Wesemann | Zendy; JiEun Lee | Zendy; Anthony Tubbs | Zendy; Barry P. Sleckman | Zendy; J. Daniel | Zendy; Kai Ge | Zendy; Frederick W. Alt | Zendy; Óscar Fernández-Capetillo | Zendy; Michel C. Nussenzweig | Zendy; André Nussenzweig | Zendy

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53BP1 Mediates Productive and Mutagenic DNA Repair through Distinct Phosphoprotein Interactions

Author(s) -

Elsa Callén,

Michela Di Virgilio,

Michael J. Kruhlak,

Maria Nieto-Soler,

Nancy Wong,

Hua-Tang Chen,

Robert B. Faryabi,

Federica Polato,

Margarida A. Santos,

Linda M. Starnes,

Duane R. Wesemann,

JiEun Lee,

Anthony Tubbs,

Barry P. Sleckman,

J. Daniel,

Kai Ge,

Frederick W. Alt,

Óscar Fernández-Capetillo,

Michel C. Nussenzweig,

André Nussenzweig

Publication year - 2013

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2013.05.023

Subject(s) - biology , non homologous end joining , dna repair , homologous recombination , dna damage , microbiology and biotechnology , phosphorylation , phenocopy , dna , dna binding protein , immunoglobulin class switching , genetics , gene , transcription factor , phenotype , antibody , b cell

The DNA damage response (DDR) protein 53BP1 protects DNA ends from excessive resection in G1, and thereby favors repair by nonhomologous end-joining (NHEJ) as opposed to homologous recombination (HR). During S phase, BRCA1 antagonizes 53BP1 to promote HR. The pro-NHEJ and antirecombinase functions of 53BP1 are mediated in part by RIF1, the only known factor that requires 53BP1 phosphorylation for its recruitment to double-strand breaks (DSBs). Here, we show that a 53BP1 phosphomutant, 53BP18A, comprising alanine substitutions of the eight most N-terminal S/TQ phosphorylation sites, mimics 53BP1 deficiency by restoring genome stability in BRCA1-deficient cells yet behaves like wild-type 53BP1 with respect to immunoglobulin class switch recombination (CSR). 53BP18A recruits RIF1 but fails to recruit the DDR protein PTIP to DSBs, and disruption of PTIP phenocopies 53BP18A. We conclude that 53BP1 promotes productive CSR and suppresses mutagenic DNA repair through distinct phosphodependent interactions with RIF1 and PTIP.

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