XRCC1 prevents toxic PARP1 trapping during DNA base excision repair

Mammalian DNA base excision repair (BER) is accelerated by poly(ADP-ribose) polymerases (PARPs) and the scaffold protein XRCC1. PARPs are sensors that detect single-strand break intermediates, but the critical role of XRCC1 during BER is unknown. Here, we show that protein complexes containing DNA p...

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Autores principales: Demin, Annie A., Hirota, Kouji, Tsuda, Masataka, Adamowicz, Marek, Hailstone, Richard, Brazina, Jan, Gittens, William, Kalasova, Ilona, Shao, Zhengping, Zha, Shan, Sasanuma, Hiroyuki, Hanzlikova, Hana, Takeda, Shunichi, Caldecott, Keith W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8294329/
https://www.ncbi.nlm.nih.gov/pubmed/34102106
http://dx.doi.org/10.1016/j.molcel.2021.05.009
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author Demin, Annie A.
Hirota, Kouji
Tsuda, Masataka
Adamowicz, Marek
Hailstone, Richard
Brazina, Jan
Gittens, William
Kalasova, Ilona
Shao, Zhengping
Zha, Shan
Sasanuma, Hiroyuki
Hanzlikova, Hana
Takeda, Shunichi
Caldecott, Keith W.
author_facet Demin, Annie A.
Hirota, Kouji
Tsuda, Masataka
Adamowicz, Marek
Hailstone, Richard
Brazina, Jan
Gittens, William
Kalasova, Ilona
Shao, Zhengping
Zha, Shan
Sasanuma, Hiroyuki
Hanzlikova, Hana
Takeda, Shunichi
Caldecott, Keith W.
author_sort Demin, Annie A.
collection PubMed
description Mammalian DNA base excision repair (BER) is accelerated by poly(ADP-ribose) polymerases (PARPs) and the scaffold protein XRCC1. PARPs are sensors that detect single-strand break intermediates, but the critical role of XRCC1 during BER is unknown. Here, we show that protein complexes containing DNA polymerase β and DNA ligase III that are assembled by XRCC1 prevent excessive engagement and activity of PARP1 during BER. As a result, PARP1 becomes “trapped” on BER intermediates in XRCC1-deficient cells in a manner similar to that induced by PARP inhibitors, including in patient fibroblasts from XRCC1-mutated disease. This excessive PARP1 engagement and trapping renders BER intermediates inaccessible to enzymes such as DNA polymerase β and impedes their repair. Consequently, PARP1 deletion rescues BER and resistance to base damage in XRCC1(−/−) cells. These data reveal excessive PARP1 engagement during BER as a threat to genome integrity and identify XRCC1 as an “anti-trapper” that prevents toxic PARP1 activity.
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spelling pubmed-82943292021-07-27 XRCC1 prevents toxic PARP1 trapping during DNA base excision repair Demin, Annie A. Hirota, Kouji Tsuda, Masataka Adamowicz, Marek Hailstone, Richard Brazina, Jan Gittens, William Kalasova, Ilona Shao, Zhengping Zha, Shan Sasanuma, Hiroyuki Hanzlikova, Hana Takeda, Shunichi Caldecott, Keith W. Mol Cell Article Mammalian DNA base excision repair (BER) is accelerated by poly(ADP-ribose) polymerases (PARPs) and the scaffold protein XRCC1. PARPs are sensors that detect single-strand break intermediates, but the critical role of XRCC1 during BER is unknown. Here, we show that protein complexes containing DNA polymerase β and DNA ligase III that are assembled by XRCC1 prevent excessive engagement and activity of PARP1 during BER. As a result, PARP1 becomes “trapped” on BER intermediates in XRCC1-deficient cells in a manner similar to that induced by PARP inhibitors, including in patient fibroblasts from XRCC1-mutated disease. This excessive PARP1 engagement and trapping renders BER intermediates inaccessible to enzymes such as DNA polymerase β and impedes their repair. Consequently, PARP1 deletion rescues BER and resistance to base damage in XRCC1(−/−) cells. These data reveal excessive PARP1 engagement during BER as a threat to genome integrity and identify XRCC1 as an “anti-trapper” that prevents toxic PARP1 activity. Cell Press 2021-07-15 /pmc/articles/PMC8294329/ /pubmed/34102106 http://dx.doi.org/10.1016/j.molcel.2021.05.009 Text en © 2021 The Authors https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Demin, Annie A.
Hirota, Kouji
Tsuda, Masataka
Adamowicz, Marek
Hailstone, Richard
Brazina, Jan
Gittens, William
Kalasova, Ilona
Shao, Zhengping
Zha, Shan
Sasanuma, Hiroyuki
Hanzlikova, Hana
Takeda, Shunichi
Caldecott, Keith W.
XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title_full XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title_fullStr XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title_full_unstemmed XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title_short XRCC1 prevents toxic PARP1 trapping during DNA base excision repair
title_sort xrcc1 prevents toxic parp1 trapping during dna base excision repair
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8294329/
https://www.ncbi.nlm.nih.gov/pubmed/34102106
http://dx.doi.org/10.1016/j.molcel.2021.05.009
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