Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination

Sameer Salunkhe; James M. Daley; Hardeep Kaur; Nozomi Tomimatsu; Chaoyou Xue; Vivek B. Raina; Angela M. Jasper; Cody M. Rogers; Wenjing Li; Shuo Zhou; Rahul Mojidra; Youngho Kwon; Qingming Fang; Jae Hoon Ji; Aida Badamchi Shabestari; O’Taveon Fitzgerald; Hoang Dinh; Bipasha Mukherjee; Amyn A. Habib; Robert Hromas; Alexander V. Mazin; Elizabeth V. Wasmuth; Shaun K. Olsen; David S. Libich; Daohong Zhou; Weixing Zhao; Eric C. Greene; Sandeep Burma; Patrick Sung

doi:10.1038/s41586-024-07910-2

Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination

Sameer Salunkhe, James M. Daley, Hardeep Kaur, Nozomi Tomimatsu, Chaoyou Xue, Vivek B. Raina, Angela M. Jasper, Cody M. Rogers, Wenjing Li, Shuo Zhou, Rahul Mojidra, Youngho Kwon, Qingming Fang, Jae Hoon Ji, Aida Badamchi Shabestari, O’Taveon Fitzgerald, Hoang Dinh, Bipasha Mukherjee, Amyn A. Habib, Robert HromasAlexander V. Mazin, Elizabeth V. Wasmuth, Shaun K. Olsen, David S. Libich, Daohong Zhou, Weixing Zhao, Eric C. Greene, Sandeep Burma, Patrick Sung

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Resumen

The licensing step of DNA double-strand break repair by homologous recombination entails resection of DNA ends to generate a single-stranded DNA template for assembly of the repair machinery consisting of the RAD51 recombinase and ancillary factors¹. DNA end resection is mechanistically intricate and reliant on the tumour suppressor complex BRCA1–BARD1 (ref. ²). Specifically, three distinct nuclease entities—the 5′–3′ exonuclease EXO1 and heterodimeric complexes of the DNA endonuclease DNA2, with either the BLM or WRN helicase—act in synergy to execute the end resection process³. A major question concerns whether BRCA1–BARD1 directly regulates end resection. Here, using highly purified protein factors, we provide evidence that BRCA1–BARD1 physically interacts with EXO1, BLM and WRN. Importantly, with reconstituted biochemical systems and a single-molecule analytical tool, we show that BRCA1–BARD1 upregulates the activity of all three resection pathways. We also demonstrate that BRCA1 and BARD1 harbour stand-alone modules that contribute to the overall functionality of BRCA1–BARD1. Moreover, analysis of a BARD1 mutant impaired in DNA binding shows the importance of this BARD1 attribute in end resection, both in vitro and in cells. Thus, BRCA1–BARD1 enhances the efficiency of all three long-range DNA end resection pathways during homologous recombination in human cells.

Idioma original	English (US)
Páginas (desde-hasta)	482-491
Número de páginas	10
Publicación	Nature
Volumen	634
N.º	8033
DOI	https://doi.org/10.1038/s41586-024-07910-2
Estado	Published - oct 10 2024

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Salunkhe, S., Daley, J. M., Kaur, H., Tomimatsu, N., Xue, C., Raina, V. B., Jasper, A. M., Rogers, C. M., Li, W., Zhou, S., Mojidra, R., Kwon, Y., Fang, Q., Ji, J. H., Badamchi Shabestari, A., Fitzgerald, OT., Dinh, H., Mukherjee, B., Habib, A. A., ... Sung, P. (2024). Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination. Nature, 634(8033), 482-491. https://doi.org/10.1038/s41586-024-07910-2

Salunkhe, S, Daley, JM, Kaur, H, Tomimatsu, N, Xue, C, Raina, VB, Jasper, AM, Rogers, CM, Li, W, Zhou, S, Mojidra, R, Kwon, Y , Fang, Q , Ji, JH, Badamchi Shabestari, A, Fitzgerald, OT, Dinh, H, Mukherjee, B, Habib, AA, Hromas, R , Mazin, AV , Wasmuth, EV , Olsen, SK , Libich, DS , Zhou, D , Zhao, W, Greene, EC, Burma, S & Sung, P 2024, 'Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination', Nature, vol. 634, n.º 8033, pp. 482-491. https://doi.org/10.1038/s41586-024-07910-2

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title = "Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination",

abstract = "The licensing step of DNA double-strand break repair by homologous recombination entails resection of DNA ends to generate a single-stranded DNA template for assembly of the repair machinery consisting of the RAD51 recombinase and ancillary factors1. DNA end resection is mechanistically intricate and reliant on the tumour suppressor complex BRCA1–BARD1 (ref. 2). Specifically, three distinct nuclease entities—the 5′–3′ exonuclease EXO1 and heterodimeric complexes of the DNA endonuclease DNA2, with either the BLM or WRN helicase—act in synergy to execute the end resection process3. A major question concerns whether BRCA1–BARD1 directly regulates end resection. Here, using highly purified protein factors, we provide evidence that BRCA1–BARD1 physically interacts with EXO1, BLM and WRN. Importantly, with reconstituted biochemical systems and a single-molecule analytical tool, we show that BRCA1–BARD1 upregulates the activity of all three resection pathways. We also demonstrate that BRCA1 and BARD1 harbour stand-alone modules that contribute to the overall functionality of BRCA1–BARD1. Moreover, analysis of a BARD1 mutant impaired in DNA binding shows the importance of this BARD1 attribute in end resection, both in vitro and in cells. Thus, BRCA1–BARD1 enhances the efficiency of all three long-range DNA end resection pathways during homologous recombination in human cells.",

author = "Sameer Salunkhe and Daley, {James M.} and Hardeep Kaur and Nozomi Tomimatsu and Chaoyou Xue and Raina, {Vivek B.} and Jasper, {Angela M.} and Rogers, {Cody M.} and Wenjing Li and Shuo Zhou and Rahul Mojidra and Youngho Kwon and Qingming Fang and Ji, {Jae Hoon} and {Badamchi Shabestari}, Aida and O{\textquoteright}Taveon Fitzgerald and Hoang Dinh and Bipasha Mukherjee and Habib, {Amyn A.} and Robert Hromas and Mazin, {Alexander V.} and Wasmuth, {Elizabeth V.} and Olsen, {Shaun K.} and Libich, {David S.} and Daohong Zhou and Weixing Zhao and Greene, {Eric C.} and Sandeep Burma and Patrick Sung",

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T1 - Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination

AU - Salunkhe, Sameer

AU - Daley, James M.

AU - Kaur, Hardeep

AU - Tomimatsu, Nozomi

AU - Xue, Chaoyou

AU - Raina, Vivek B.

AU - Jasper, Angela M.

AU - Rogers, Cody M.

AU - Li, Wenjing

AU - Zhou, Shuo

AU - Mojidra, Rahul

AU - Kwon, Youngho

AU - Fang, Qingming

AU - Ji, Jae Hoon

AU - Badamchi Shabestari, Aida

AU - Fitzgerald, O’Taveon

AU - Dinh, Hoang

AU - Mukherjee, Bipasha

AU - Habib, Amyn A.

AU - Hromas, Robert

AU - Mazin, Alexander V.

AU - Wasmuth, Elizabeth V.

AU - Olsen, Shaun K.

AU - Libich, David S.

AU - Zhou, Daohong

AU - Zhao, Weixing

AU - Greene, Eric C.

AU - Burma, Sandeep

AU - Sung, Patrick

PY - 2024/10/10

Y1 - 2024/10/10

N2 - The licensing step of DNA double-strand break repair by homologous recombination entails resection of DNA ends to generate a single-stranded DNA template for assembly of the repair machinery consisting of the RAD51 recombinase and ancillary factors1. DNA end resection is mechanistically intricate and reliant on the tumour suppressor complex BRCA1–BARD1 (ref. 2). Specifically, three distinct nuclease entities—the 5′–3′ exonuclease EXO1 and heterodimeric complexes of the DNA endonuclease DNA2, with either the BLM or WRN helicase—act in synergy to execute the end resection process3. A major question concerns whether BRCA1–BARD1 directly regulates end resection. Here, using highly purified protein factors, we provide evidence that BRCA1–BARD1 physically interacts with EXO1, BLM and WRN. Importantly, with reconstituted biochemical systems and a single-molecule analytical tool, we show that BRCA1–BARD1 upregulates the activity of all three resection pathways. We also demonstrate that BRCA1 and BARD1 harbour stand-alone modules that contribute to the overall functionality of BRCA1–BARD1. Moreover, analysis of a BARD1 mutant impaired in DNA binding shows the importance of this BARD1 attribute in end resection, both in vitro and in cells. Thus, BRCA1–BARD1 enhances the efficiency of all three long-range DNA end resection pathways during homologous recombination in human cells.

AB - The licensing step of DNA double-strand break repair by homologous recombination entails resection of DNA ends to generate a single-stranded DNA template for assembly of the repair machinery consisting of the RAD51 recombinase and ancillary factors1. DNA end resection is mechanistically intricate and reliant on the tumour suppressor complex BRCA1–BARD1 (ref. 2). Specifically, three distinct nuclease entities—the 5′–3′ exonuclease EXO1 and heterodimeric complexes of the DNA endonuclease DNA2, with either the BLM or WRN helicase—act in synergy to execute the end resection process3. A major question concerns whether BRCA1–BARD1 directly regulates end resection. Here, using highly purified protein factors, we provide evidence that BRCA1–BARD1 physically interacts with EXO1, BLM and WRN. Importantly, with reconstituted biochemical systems and a single-molecule analytical tool, we show that BRCA1–BARD1 upregulates the activity of all three resection pathways. We also demonstrate that BRCA1 and BARD1 harbour stand-alone modules that contribute to the overall functionality of BRCA1–BARD1. Moreover, analysis of a BARD1 mutant impaired in DNA binding shows the importance of this BARD1 attribute in end resection, both in vitro and in cells. Thus, BRCA1–BARD1 enhances the efficiency of all three long-range DNA end resection pathways during homologous recombination in human cells.

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Promotion of DNA end resection by BRCA1–BARD1 in homologous recombination

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