The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair

Keren Baranes-Bachar; Adva Levy-Barda; Judith Oehler; Dylan A. Reid; Isabel Soria-Bretones; Ty C. Voss; Dudley Chung; Yoon Park; Chao Liu; Jong Bok Yoon; Wei Li; Graham Dellaire; Tom Misteli; Pablo Huertas; Eli Rothenberg; Kristijan Ramadan; Yael Ziv; Yosef Shiloh

doi:10.1016/j.molcel.2018.02.002

The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair

Keren Baranes-Bachar, Adva Levy-Barda, Judith Oehler, Dylan A. Reid, Isabel Soria-Bretones, Ty C. Voss, Dudley Chung, Yoon Park, Chao Liu, Jong Bok Yoon, Wei Li, Graham Dellaire, Tom Misteli, Pablo Huertas, Eli Rothenberg, Kristijan Ramadan, Yael Ziv, Yosef Shiloh

Department of Biochemistry

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

36 Citations (Scopus)

Abstract

Double-strand breaks (DSBs) are critical DNA lesions that robustly activate the elaborate DNA damage response (DDR) network. We identified a critical player in DDR fine-tuning: the E3/E4 ubiquitin ligase UBE4A. UBE4A's recruitment to sites of DNA damage is dependent on primary E3 ligases in the DDR and promotes enhancement and sustainment of K48- and K63-linked ubiquitin chains at these sites. This step is required for timely recruitment of the RAP80 and BRCA1 proteins and proper organization of RAP80- and BRCA1-associated protein complexes at DSB sites. This pathway is essential for optimal end resection at DSBs, and its abrogation leads to upregulation of the highly mutagenic alternative end-joining repair at the expense of error-free homologous recombination repair. Our data uncover a critical regulatory level in the DSB response and underscore the importance of fine-tuning the complex DDR network for accurate and balanced execution of DSB repair. The DNA damage response is activated by DNA double-strand breaks (DSBs) and involves protein ubiquitylation. Baranes-Bachar et al. show that, following initial ubiquitylation at DSB sites by E3 ubiquitin ligases, ubiquitin chains require further modulation by an E3/E4 ligase, UBE4A, to achieve optimal DSB repair.

Original language	English
Pages (from-to)	866-878.e7
Journal	Molecular Cell
Volume	69
Issue number	5
DOIs	https://doi.org/10.1016/j.molcel.2018.02.002
Publication status	Published - 2018 Mar 1

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Publisher Copyright:
© 2018 Elsevier Inc.

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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10.1016/j.molcel.2018.02.002

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Baranes-Bachar, K., Levy-Barda, A., Oehler, J., Reid, D. A., Soria-Bretones, I., Voss, T. C., Chung, D., Park, Y., Liu, C., Yoon, J. B., Li, W., Dellaire, G., Misteli, T., Huertas, P., Rothenberg, E., Ramadan, K., Ziv, Y., & Shiloh, Y. (2018). The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair. Molecular Cell, 69(5), 866-878.e7. https://doi.org/10.1016/j.molcel.2018.02.002

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title = "The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair",

abstract = "Double-strand breaks (DSBs) are critical DNA lesions that robustly activate the elaborate DNA damage response (DDR) network. We identified a critical player in DDR fine-tuning: the E3/E4 ubiquitin ligase UBE4A. UBE4A's recruitment to sites of DNA damage is dependent on primary E3 ligases in the DDR and promotes enhancement and sustainment of K48- and K63-linked ubiquitin chains at these sites. This step is required for timely recruitment of the RAP80 and BRCA1 proteins and proper organization of RAP80- and BRCA1-associated protein complexes at DSB sites. This pathway is essential for optimal end resection at DSBs, and its abrogation leads to upregulation of the highly mutagenic alternative end-joining repair at the expense of error-free homologous recombination repair. Our data uncover a critical regulatory level in the DSB response and underscore the importance of fine-tuning the complex DDR network for accurate and balanced execution of DSB repair. The DNA damage response is activated by DNA double-strand breaks (DSBs) and involves protein ubiquitylation. Baranes-Bachar et al. show that, following initial ubiquitylation at DSB sites by E3 ubiquitin ligases, ubiquitin chains require further modulation by an E3/E4 ligase, UBE4A, to achieve optimal DSB repair.",

author = "Keren Baranes-Bachar and Adva Levy-Barda and Judith Oehler and Reid, {Dylan A.} and Isabel Soria-Bretones and Voss, {Ty C.} and Dudley Chung and Yoon Park and Chao Liu and Yoon, {Jong Bok} and Wei Li and Graham Dellaire and Tom Misteli and Pablo Huertas and Eli Rothenberg and Kristijan Ramadan and Yael Ziv and Yosef Shiloh",

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Baranes-Bachar, K, Levy-Barda, A, Oehler, J, Reid, DA, Soria-Bretones, I, Voss, TC, Chung, D, Park, Y, Liu, C, Yoon, JB, Li, W, Dellaire, G, Misteli, T, Huertas, P, Rothenberg, E, Ramadan, K, Ziv, Y & Shiloh, Y 2018, 'The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair', Molecular Cell, vol. 69, no. 5, pp. 866-878.e7. https://doi.org/10.1016/j.molcel.2018.02.002

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T1 - The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair

AU - Baranes-Bachar, Keren

AU - Levy-Barda, Adva

AU - Oehler, Judith

AU - Reid, Dylan A.

AU - Soria-Bretones, Isabel

AU - Voss, Ty C.

AU - Chung, Dudley

AU - Park, Yoon

AU - Liu, Chao

AU - Yoon, Jong Bok

AU - Li, Wei

AU - Dellaire, Graham

AU - Misteli, Tom

AU - Huertas, Pablo

AU - Rothenberg, Eli

AU - Ramadan, Kristijan

AU - Ziv, Yael

AU - Shiloh, Yosef

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Double-strand breaks (DSBs) are critical DNA lesions that robustly activate the elaborate DNA damage response (DDR) network. We identified a critical player in DDR fine-tuning: the E3/E4 ubiquitin ligase UBE4A. UBE4A's recruitment to sites of DNA damage is dependent on primary E3 ligases in the DDR and promotes enhancement and sustainment of K48- and K63-linked ubiquitin chains at these sites. This step is required for timely recruitment of the RAP80 and BRCA1 proteins and proper organization of RAP80- and BRCA1-associated protein complexes at DSB sites. This pathway is essential for optimal end resection at DSBs, and its abrogation leads to upregulation of the highly mutagenic alternative end-joining repair at the expense of error-free homologous recombination repair. Our data uncover a critical regulatory level in the DSB response and underscore the importance of fine-tuning the complex DDR network for accurate and balanced execution of DSB repair. The DNA damage response is activated by DNA double-strand breaks (DSBs) and involves protein ubiquitylation. Baranes-Bachar et al. show that, following initial ubiquitylation at DSB sites by E3 ubiquitin ligases, ubiquitin chains require further modulation by an E3/E4 ligase, UBE4A, to achieve optimal DSB repair.

AB - Double-strand breaks (DSBs) are critical DNA lesions that robustly activate the elaborate DNA damage response (DDR) network. We identified a critical player in DDR fine-tuning: the E3/E4 ubiquitin ligase UBE4A. UBE4A's recruitment to sites of DNA damage is dependent on primary E3 ligases in the DDR and promotes enhancement and sustainment of K48- and K63-linked ubiquitin chains at these sites. This step is required for timely recruitment of the RAP80 and BRCA1 proteins and proper organization of RAP80- and BRCA1-associated protein complexes at DSB sites. This pathway is essential for optimal end resection at DSBs, and its abrogation leads to upregulation of the highly mutagenic alternative end-joining repair at the expense of error-free homologous recombination repair. Our data uncover a critical regulatory level in the DSB response and underscore the importance of fine-tuning the complex DDR network for accurate and balanced execution of DSB repair. The DNA damage response is activated by DNA double-strand breaks (DSBs) and involves protein ubiquitylation. Baranes-Bachar et al. show that, following initial ubiquitylation at DSB sites by E3 ubiquitin ligases, ubiquitin chains require further modulation by an E3/E4 ligase, UBE4A, to achieve optimal DSB repair.

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The Ubiquitin E3/E4 Ligase UBE4A Adjusts Protein Ubiquitylation and Accumulation at Sites of DNA Damage, Facilitating Double-Strand Break Repair

Abstract

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