DSS1 restrains BRCA2’s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis

Yuxin Huang; Wenjing Li; Tzeh Foo; Jae Hoon Ji; Bo Wu; Nozomi Tomimatsu; Qingming Fang; Boya Gao; Melissa Long; Jingfei Xu; Rouf Maqbool; Bipasha Mukherjee; Tengyang Ni; Salvador Alejo; Yuan He; Sandeep Burma; Li Lan; Bing Xia; Weixing Zhao

doi:10.1038/s41467-024-51557-6

DSS1 restrains BRCA2’s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis

Yuxin Huang, Wenjing Li, Tzeh Foo, Jae Hoon Ji, Bo Wu, Nozomi Tomimatsu, Qingming Fang, Boya Gao, Melissa Long, Jingfei Xu, Rouf Maqbool, Bipasha Mukherjee, Tengyang Ni, Salvador Alejo, Yuan He, Sandeep Burma, Li Lan, Bing Xia, Weixing Zhao

Producción científica: Article › revisión exhaustiva

Resumen

DSS1, essential for BRCA2-RAD51 dependent homologous recombination (HR), associates with the helical domain (HD) and OB fold 1 (OB1) of the BRCA2 DSS1/DNA-binding domain (DBD) which is frequently targeted by cancer-associated pathogenic variants. Herein, we reveal robust ss/dsDNA binding abilities in HD-OB1 subdomains and find that DSS1 shuts down HD-OB1’s DNA binding to enable ssDNA targeting of the BRCA2-RAD51 complex. We show that C-terminal helix mutations of DSS1, including the cancer-associated R57Q mutation, disrupt this DSS1 regulation and permit dsDNA binding of HD-OB1/BRCA2-DBD. Importantly, these DSS1 mutations impair BRCA2/RAD51 ssDNA loading and focus formation and cause decreased HR efficiency, destabilization of stalled forks and R-loop accumulation, and hypersensitize cells to DNA-damaging agents. We propose that DSS1 restrains the intrinsic dsDNA binding of BRCA2-DBD to ensure BRCA2/RAD51 targeting to ssDNA, thereby promoting optimal execution of HR, and potentially replication fork protection and R-loop suppression.

Idioma original	English (US)
Número de artículo	7081
Publicación	Nature communications
Volumen	15
N.º	1
DOI	https://doi.org/10.1038/s41467-024-51557-6
Estado	Published - dic 2024

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-024-51557-6

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Huang, Y., Li, W., Foo, T., Ji, J. H., Wu, B., Tomimatsu, N., Fang, Q., Gao, B., Long, M., Xu, J., Maqbool, R., Mukherjee, B., Ni, T., Alejo, S., He, Y., Burma, S., Lan, L., Xia, B., & Zhao, W. (2024). DSS1 restrains BRCA2’s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis. Nature communications, 15(1), Artículo 7081. https://doi.org/10.1038/s41467-024-51557-6

Huang, Y, Li, W, Foo, T, Ji, JH, Wu, B, Tomimatsu, N, Fang, Q, Gao, B, Long, M, Xu, J, Maqbool, R, Mukherjee, B, Ni, T, Alejo, S, He, Y, Burma, S, Lan, L, Xia, B & Zhao, W 2024, 'DSS1 restrains BRCA2’s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis', Nature communications, vol. 15, n.º 1, 7081. https://doi.org/10.1038/s41467-024-51557-6

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title = "DSS1 restrains BRCA2{\textquoteright}s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis",

abstract = "DSS1, essential for BRCA2-RAD51 dependent homologous recombination (HR), associates with the helical domain (HD) and OB fold 1 (OB1) of the BRCA2 DSS1/DNA-binding domain (DBD) which is frequently targeted by cancer-associated pathogenic variants. Herein, we reveal robust ss/dsDNA binding abilities in HD-OB1 subdomains and find that DSS1 shuts down HD-OB1{\textquoteright}s DNA binding to enable ssDNA targeting of the BRCA2-RAD51 complex. We show that C-terminal helix mutations of DSS1, including the cancer-associated R57Q mutation, disrupt this DSS1 regulation and permit dsDNA binding of HD-OB1/BRCA2-DBD. Importantly, these DSS1 mutations impair BRCA2/RAD51 ssDNA loading and focus formation and cause decreased HR efficiency, destabilization of stalled forks and R-loop accumulation, and hypersensitize cells to DNA-damaging agents. We propose that DSS1 restrains the intrinsic dsDNA binding of BRCA2-DBD to ensure BRCA2/RAD51 targeting to ssDNA, thereby promoting optimal execution of HR, and potentially replication fork protection and R-loop suppression.",

author = "Yuxin Huang and Wenjing Li and Tzeh Foo and Ji, {Jae Hoon} and Bo Wu and Nozomi Tomimatsu and Qingming Fang and Boya Gao and Melissa Long and Jingfei Xu and Rouf Maqbool and Bipasha Mukherjee and Tengyang Ni and Salvador Alejo and Yuan He and Sandeep Burma and Li Lan and Bing Xia and Weixing Zhao",

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doi = "10.1038/s41467-024-51557-6",

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AU - Huang, Yuxin

AU - Li, Wenjing

AU - Foo, Tzeh

AU - Ji, Jae Hoon

AU - Wu, Bo

AU - Tomimatsu, Nozomi

AU - Fang, Qingming

AU - Gao, Boya

AU - Long, Melissa

AU - Xu, Jingfei

AU - Maqbool, Rouf

AU - Mukherjee, Bipasha

AU - Ni, Tengyang

AU - Alejo, Salvador

AU - He, Yuan

AU - Burma, Sandeep

AU - Lan, Li

AU - Xia, Bing

AU - Zhao, Weixing

PY - 2024/12

Y1 - 2024/12

N2 - DSS1, essential for BRCA2-RAD51 dependent homologous recombination (HR), associates with the helical domain (HD) and OB fold 1 (OB1) of the BRCA2 DSS1/DNA-binding domain (DBD) which is frequently targeted by cancer-associated pathogenic variants. Herein, we reveal robust ss/dsDNA binding abilities in HD-OB1 subdomains and find that DSS1 shuts down HD-OB1’s DNA binding to enable ssDNA targeting of the BRCA2-RAD51 complex. We show that C-terminal helix mutations of DSS1, including the cancer-associated R57Q mutation, disrupt this DSS1 regulation and permit dsDNA binding of HD-OB1/BRCA2-DBD. Importantly, these DSS1 mutations impair BRCA2/RAD51 ssDNA loading and focus formation and cause decreased HR efficiency, destabilization of stalled forks and R-loop accumulation, and hypersensitize cells to DNA-damaging agents. We propose that DSS1 restrains the intrinsic dsDNA binding of BRCA2-DBD to ensure BRCA2/RAD51 targeting to ssDNA, thereby promoting optimal execution of HR, and potentially replication fork protection and R-loop suppression.

AB - DSS1, essential for BRCA2-RAD51 dependent homologous recombination (HR), associates with the helical domain (HD) and OB fold 1 (OB1) of the BRCA2 DSS1/DNA-binding domain (DBD) which is frequently targeted by cancer-associated pathogenic variants. Herein, we reveal robust ss/dsDNA binding abilities in HD-OB1 subdomains and find that DSS1 shuts down HD-OB1’s DNA binding to enable ssDNA targeting of the BRCA2-RAD51 complex. We show that C-terminal helix mutations of DSS1, including the cancer-associated R57Q mutation, disrupt this DSS1 regulation and permit dsDNA binding of HD-OB1/BRCA2-DBD. Importantly, these DSS1 mutations impair BRCA2/RAD51 ssDNA loading and focus formation and cause decreased HR efficiency, destabilization of stalled forks and R-loop accumulation, and hypersensitize cells to DNA-damaging agents. We propose that DSS1 restrains the intrinsic dsDNA binding of BRCA2-DBD to ensure BRCA2/RAD51 targeting to ssDNA, thereby promoting optimal execution of HR, and potentially replication fork protection and R-loop suppression.

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DSS1 restrains BRCA2’s engagement with dsDNA for homologous recombination, replication fork protection, and R-loop homeostasis

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ASJC Scopus subject areas

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