More than just a passive brick in the wall: the nucleosome facilitates DNA polymerase β activity in linker DNA and its PARP-dependent regulation in the BER pathway choice

DNA polymerase β (Polβ) is a central player of base excision repair (BER), performing gap-filling synthesis on damaged DNA. While nucleosome core particles (NCPs) are known to impede activity of BER enzymes, the regulation of this process in linker DNA adjacent to nucleosomes remains unclear. Here we demonstrate an unexpected stimulation of Polβ-catalyzed gap-filling and strand-displacement synthesis in linker DNA by the adjacent NCP. Notably, the nucleosomal context reinforces the regulatory modulation of Polβ activity by PARP1/PARP2 and FEN1. While linker histone H1 restricts strand-displacement synthesis at the nucleosome entry/exit site, PARP1 and PARP2 modulate Polβ function through competitive binding to DNA gaps or nicks and via poly(ADP-ribosyl)ation (PARylation). At the same time, PARPs binding differentially regulates BER sub-pathway choice, and PARylation alleviates H1-mediated inhibition. These findings reveal a multi-layered regulatory system wherein the nucleosome acts as a dynamic platform coordinating Polβ activity and its interplay with chromatin-associated factors, influencing the balance between short- and long-patch BER. The research advances understanding of chromatin-mediated control of BER DNA repair synthesis and the functional specialization of PARP1 and PARP2 in maintaining genome stability.