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PARP1 associates with R-loops to promote their resolution and genome stability.

Natalie LaspataParminder KaurSofiane Yacine MersaouiDaniela MuoioZhiyan Silvia LiuMaxwell Henry BannisterHai Dang NguyenCaroline CurryJohn M PascalGuy G PoirierHong WangJean-Yves MassonElise Fouquerel
Published in: Nucleic acids research (2023)
PARP1 is a DNA-dependent ADP-Ribose transferase with ADP-ribosylation activity that is triggered by DNA breaks and non-B DNA structures to mediate their resolution. PARP1 was also recently identified as a component of the R-loop-associated protein-protein interaction network, suggesting a potential role for PARP1 in resolving this structure. R-loops are three-stranded nucleic acid structures that consist of a RNA-DNA hybrid and a displaced non-template DNA strand. R-loops are involved in crucial physiological processes but can also be a source of genome instability if persistently unresolved. In this study, we demonstrate that PARP1 binds R-loops in vitro and associates with R-loop formation sites in cells which activates its ADP-ribosylation activity. Conversely, PARP1 inhibition or genetic depletion causes an accumulation of unresolved R-loops which promotes genomic instability. Our study reveals that PARP1 is a novel sensor for R-loops and highlights that PARP1 is a suppressor of R-loop-associated genomic instability.
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