The CSB chromatin remodeler regulates PARP1- and PARP2-mediated single-strand break repair at actively transcribed DNA regions

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Abstract

Efficient repair of oxidized DNA is critical for genome-integrity maintenance. Cockayne syndrome protein B (CSB) is an ATP-dependent chromatin remodeler that collaborates with Poly(ADP-ribose) polymerase I (PARP1) in the repair of oxidative DNA lesions. How these proteins integrate during DNA repair remains largely unknown. Here, using chromatin co-fractionation studies, we demonstrate that PARP1 and PARP2 promote recruitment of CSB to oxidatively-damaged DNA. CSB, in turn, contributes to the recruitment of XRCC1, and histone PARylation factor 1 (HPF1), and promotes histone PARylation. Using alkaline comet assays to monitor DNA repair, we found that CSB regulates single-strand break repair (SSBR) mediated by PARP1 and PARP2. Strikingly, CSB's function in SSBR is largely bypassed when transcription is inhibited, suggesting CSB-mediated SSBR occurs primarily at actively transcribed DNA regions. While PARP1 repairs SSBs at sites regardless of the transcription status, we found that PARP2 predominantly functions in actively transcribed DNA regions. Therefore, our study raises the hypothesis that SSBR is executed by different mechanisms based on the transcription status.

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Bilkis, R., Lake, R. J., Cooper, K. L., Tomkinson, A., & Fan, H. Y. (2023). The CSB chromatin remodeler regulates PARP1- and PARP2-mediated single-strand break repair at actively transcribed DNA regions. Nucleic Acids Research, 51(14), 7342–7356. https://doi.org/10.1093/nar/gkad515

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