Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation

Francisco E. Neal; Wenjing Li; Mollie E. Uhrig; Jeffrey N. Katz; Shahrez Syed; Neelam Sharma; Arijit Dutta; Sandeep Burma; Robert Hromas; Alexander V. Mazin; Eloise Dray; David S. Libich; Shaun K. Olsen; Elizabeth V. Wasmuth; Weixing Zhao; Claus S. Sørensen; Claudia Wiese; Youngho Kwon; Patrick Sung

doi:10.1016/j.celrep.2025.115654

Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation

Francisco E. Neal
, Wenjing Li
, Mollie E. Uhrig
, Jeffrey N. Katz
, Shahrez Syed
, Neelam Sharma
, Arijit Dutta
, Sandeep Burma
, Robert Hromas
, Alexander V. Mazin
, Eloise Dray
, David S. Libich
, Shaun K. Olsen
, Elizabeth V. Wasmuth
, Weixing Zhao
, Claus S. Sørensen
, Claudia Wiese
, Youngho Kwon
, Patrick Sung

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Homologous recombination (HR) removes DNA double-strand breaks (DSBs) and preserves stressed DNA replication forks. Successful HR execution requires the tumor suppressor BRCA2, which harbors distinct DNA-binding domains (DBDs): one that possesses three oligonucleotide/oligosaccharide-binding (OB) folds (OB-DBD) and another residing in the C-terminal recombinase binding domain (CTRB-DBD). Here, we employ multi-faceted approaches to delineate the contributions of these domains toward HR and replication fork maintenance. We show that OB-DBD and CTRB-DBD confer single-strand DNA (ssDNA)- and dsDNA-binding capabilities, respectively, and that BRCA2 variants mutated in either domain are impaired in their ability to load the recombinase RAD51 onto ssDNA pre-occupied by RPA. While the CTRB-DBD mutant is modestly affected by DNA break repair, it exhibits a strong defect in the protection of stressed replication forks. In contrast, the OB-DBD is indispensable for both BRCA2 functions. Our study thus defines the unique contributions of the two BRCA2 DBDs in genome maintenance.

Original language	English (US)
Article number	115654
Journal	Cell Reports
Volume	44
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2025.115654
State	Published - May 27 2025

Keywords

BRCA2
CP: Molecular biology
DNA
DNA repair
DNA replication
RAD51 recombinase
homologous recombination
replication fork

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1016/j.celrep.2025.115654

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Neal, F. E., Li, W., Uhrig, M. E., Katz, J. N., Syed, S., Sharma, N., Dutta, A., Burma, S., Hromas, R., Mazin, A. V., Dray, E., Libich, D. S., Olsen, S. K., Wasmuth, E. V., Zhao, W., Sørensen, C. S., Wiese, C., Kwon, Y., & Sung, P. (2025). Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation. Cell Reports, 44(5), Article 115654. https://doi.org/10.1016/j.celrep.2025.115654

Neal, FE, Li, W, Uhrig, ME, Katz, JN, Syed, S, Sharma, N, Dutta, A, Burma, S , Hromas, R , Mazin, AV , Dray, E , Libich, DS , Olsen, SK , Wasmuth, EV , Zhao, W, Sørensen, CS, Wiese, C, Kwon, Y & Sung, P 2025, 'Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation', Cell Reports, vol. 44, no. 5, 115654. https://doi.org/10.1016/j.celrep.2025.115654

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title = "Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation",

abstract = "Homologous recombination (HR) removes DNA double-strand breaks (DSBs) and preserves stressed DNA replication forks. Successful HR execution requires the tumor suppressor BRCA2, which harbors distinct DNA-binding domains (DBDs): one that possesses three oligonucleotide/oligosaccharide-binding (OB) folds (OB-DBD) and another residing in the C-terminal recombinase binding domain (CTRB-DBD). Here, we employ multi-faceted approaches to delineate the contributions of these domains toward HR and replication fork maintenance. We show that OB-DBD and CTRB-DBD confer single-strand DNA (ssDNA)- and dsDNA-binding capabilities, respectively, and that BRCA2 variants mutated in either domain are impaired in their ability to load the recombinase RAD51 onto ssDNA pre-occupied by RPA. While the CTRB-DBD mutant is modestly affected by DNA break repair, it exhibits a strong defect in the protection of stressed replication forks. In contrast, the OB-DBD is indispensable for both BRCA2 functions. Our study thus defines the unique contributions of the two BRCA2 DBDs in genome maintenance.",

keywords = "BRCA2, CP: Molecular biology, DNA, DNA repair, DNA replication, RAD51 recombinase, homologous recombination, replication fork",

author = "Neal, \{Francisco E.\} and Wenjing Li and Uhrig, \{Mollie E.\} and Katz, \{Jeffrey N.\} and Shahrez Syed and Neelam Sharma and Arijit Dutta and Sandeep Burma and Robert Hromas and Mazin, \{Alexander V.\} and Eloise Dray and Libich, \{David S.\} and Olsen, \{Shaun K.\} and Wasmuth, \{Elizabeth V.\} and Weixing Zhao and S{\o}rensen, \{Claus S.\} and Claudia Wiese and Youngho Kwon and Patrick Sung",

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doi = "10.1016/j.celrep.2025.115654",

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AU - Neal, Francisco E.

AU - Li, Wenjing

AU - Uhrig, Mollie E.

AU - Katz, Jeffrey N.

AU - Syed, Shahrez

AU - Sharma, Neelam

AU - Dutta, Arijit

AU - Burma, Sandeep

AU - Hromas, Robert

AU - Mazin, Alexander V.

AU - Dray, Eloise

AU - Libich, David S.

AU - Olsen, Shaun K.

AU - Wasmuth, Elizabeth V.

AU - Zhao, Weixing

AU - Sørensen, Claus S.

AU - Wiese, Claudia

AU - Kwon, Youngho

AU - Sung, Patrick

PY - 2025/5/27

Y1 - 2025/5/27

N2 - Homologous recombination (HR) removes DNA double-strand breaks (DSBs) and preserves stressed DNA replication forks. Successful HR execution requires the tumor suppressor BRCA2, which harbors distinct DNA-binding domains (DBDs): one that possesses three oligonucleotide/oligosaccharide-binding (OB) folds (OB-DBD) and another residing in the C-terminal recombinase binding domain (CTRB-DBD). Here, we employ multi-faceted approaches to delineate the contributions of these domains toward HR and replication fork maintenance. We show that OB-DBD and CTRB-DBD confer single-strand DNA (ssDNA)- and dsDNA-binding capabilities, respectively, and that BRCA2 variants mutated in either domain are impaired in their ability to load the recombinase RAD51 onto ssDNA pre-occupied by RPA. While the CTRB-DBD mutant is modestly affected by DNA break repair, it exhibits a strong defect in the protection of stressed replication forks. In contrast, the OB-DBD is indispensable for both BRCA2 functions. Our study thus defines the unique contributions of the two BRCA2 DBDs in genome maintenance.

AB - Homologous recombination (HR) removes DNA double-strand breaks (DSBs) and preserves stressed DNA replication forks. Successful HR execution requires the tumor suppressor BRCA2, which harbors distinct DNA-binding domains (DBDs): one that possesses three oligonucleotide/oligosaccharide-binding (OB) folds (OB-DBD) and another residing in the C-terminal recombinase binding domain (CTRB-DBD). Here, we employ multi-faceted approaches to delineate the contributions of these domains toward HR and replication fork maintenance. We show that OB-DBD and CTRB-DBD confer single-strand DNA (ssDNA)- and dsDNA-binding capabilities, respectively, and that BRCA2 variants mutated in either domain are impaired in their ability to load the recombinase RAD51 onto ssDNA pre-occupied by RPA. While the CTRB-DBD mutant is modestly affected by DNA break repair, it exhibits a strong defect in the protection of stressed replication forks. In contrast, the OB-DBD is indispensable for both BRCA2 functions. Our study thus defines the unique contributions of the two BRCA2 DBDs in genome maintenance.

KW - BRCA2

KW - CP: Molecular biology

KW - DNA

KW - DNA repair

KW - DNA replication

KW - RAD51 recombinase

KW - homologous recombination

KW - replication fork

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VL - 44

JO - Cell Reports

JF - Cell Reports

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ER -

Distinct roles of the two BRCA2 DNA-binding domains in DNA damage repair and replication fork preservation

Abstract

Keywords

ASJC Scopus subject areas

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