Dynamics of the DYNLL1–MRE11 complex regulate DNA end resection and recruitment of Shieldin to DSBs

Michelle L. Swift; Rui Zhou; Aleem Syed; Lisa A. Moreau; Bartłomiej Tomasik; John A. Tainer; Panagiotis A. Konstantinopoulos; Alan D. D’Andrea; Yizhou Joseph He; Dipanjan Chowdhury

doi:10.1038/s41594-023-01074-9

Dynamics of the DYNLL1–MRE11 complex regulate DNA end resection and recruitment of Shieldin to DSBs

Michelle L. Swift, Rui Zhou, Aleem Syed, Lisa A. Moreau, Bartłomiej Tomasik, John A. Tainer, Panagiotis A. Konstantinopoulos, Alan D. D’Andrea, Yizhou Joseph He, Dipanjan Chowdhury

Molecular & Cellular Oncology

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

1 Scopus citations

Abstract

The extent and efficacy of DNA end resection at DNA double-strand breaks (DSB) determine the repair pathway choice. Here we describe how the 53BP1-associated protein DYNLL1 works in tandem with the Shieldin complex to protect DNA ends. DYNLL1 is recruited to DSBs by 53BP1, where it limits end resection by binding and disrupting the MRE11 dimer. The Shieldin complex is recruited to a fraction of 53BP1-positive DSBs hours after DYNLL1, predominantly in G1 cells. Shieldin localization to DSBs depends on MRE11 activity and is regulated by the interaction of DYNLL1 with MRE11. BRCA1-deficient cells rendered resistant to PARP inhibitors by the loss of Shieldin proteins can be resensitized by the constitutive association of DYNLL1 with MRE11. These results define the temporal and functional dynamics of the 53BP1-centric DNA end resection factors in cells.

Original language	English (US)
Pages (from-to)	1456-1467
Number of pages	12
Journal	Nature Structural and Molecular Biology
Volume	30
Issue number	10
DOIs	https://doi.org/10.1038/s41594-023-01074-9
State	Published - Oct 2023

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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title = "Dynamics of the DYNLL1–MRE11 complex regulate DNA end resection and recruitment of Shieldin to DSBs",

abstract = "The extent and efficacy of DNA end resection at DNA double-strand breaks (DSB) determine the repair pathway choice. Here we describe how the 53BP1-associated protein DYNLL1 works in tandem with the Shieldin complex to protect DNA ends. DYNLL1 is recruited to DSBs by 53BP1, where it limits end resection by binding and disrupting the MRE11 dimer. The Shieldin complex is recruited to a fraction of 53BP1-positive DSBs hours after DYNLL1, predominantly in G1 cells. Shieldin localization to DSBs depends on MRE11 activity and is regulated by the interaction of DYNLL1 with MRE11. BRCA1-deficient cells rendered resistant to PARP inhibitors by the loss of Shieldin proteins can be resensitized by the constitutive association of DYNLL1 with MRE11. These results define the temporal and functional dynamics of the 53BP1-centric DNA end resection factors in cells.",

author = "Swift, {Michelle L.} and Rui Zhou and Aleem Syed and Moreau, {Lisa A.} and Bart{\l}omiej Tomasik and Tainer, {John A.} and Konstantinopoulos, {Panagiotis A.} and D{\textquoteright}Andrea, {Alan D.} and He, {Yizhou Joseph} and Dipanjan Chowdhury",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer Nature America, Inc.",

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doi = "10.1038/s41594-023-01074-9",

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AU - Swift, Michelle L.

AU - Zhou, Rui

AU - Syed, Aleem

AU - Moreau, Lisa A.

AU - Tomasik, Bartłomiej

AU - Tainer, John A.

AU - Konstantinopoulos, Panagiotis A.

AU - D’Andrea, Alan D.

AU - He, Yizhou Joseph

AU - Chowdhury, Dipanjan

PY - 2023/10

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N2 - The extent and efficacy of DNA end resection at DNA double-strand breaks (DSB) determine the repair pathway choice. Here we describe how the 53BP1-associated protein DYNLL1 works in tandem with the Shieldin complex to protect DNA ends. DYNLL1 is recruited to DSBs by 53BP1, where it limits end resection by binding and disrupting the MRE11 dimer. The Shieldin complex is recruited to a fraction of 53BP1-positive DSBs hours after DYNLL1, predominantly in G1 cells. Shieldin localization to DSBs depends on MRE11 activity and is regulated by the interaction of DYNLL1 with MRE11. BRCA1-deficient cells rendered resistant to PARP inhibitors by the loss of Shieldin proteins can be resensitized by the constitutive association of DYNLL1 with MRE11. These results define the temporal and functional dynamics of the 53BP1-centric DNA end resection factors in cells.

AB - The extent and efficacy of DNA end resection at DNA double-strand breaks (DSB) determine the repair pathway choice. Here we describe how the 53BP1-associated protein DYNLL1 works in tandem with the Shieldin complex to protect DNA ends. DYNLL1 is recruited to DSBs by 53BP1, where it limits end resection by binding and disrupting the MRE11 dimer. The Shieldin complex is recruited to a fraction of 53BP1-positive DSBs hours after DYNLL1, predominantly in G1 cells. Shieldin localization to DSBs depends on MRE11 activity and is regulated by the interaction of DYNLL1 with MRE11. BRCA1-deficient cells rendered resistant to PARP inhibitors by the loss of Shieldin proteins can be resensitized by the constitutive association of DYNLL1 with MRE11. These results define the temporal and functional dynamics of the 53BP1-centric DNA end resection factors in cells.

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Dynamics of the DYNLL1–MRE11 complex regulate DNA end resection and recruitment of Shieldin to DSBs

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