PARG inhibition induces nuclear aggregation of PARylated PARP1

Abstract

AbstractPARG inhibitors are currently under clinical development for the treatment of DNA repair-deficient cancers, however, their precise mechanism of action is still unclear. Here we report that PARG inhibition causes increased nuclear PARylated PARP1 that limits PARP1 chromatin binding in response to DNA damage. This PARylated PARP1 accumulates as aggregates at sites distinct from the site of DNA damage, leading to the mis-localization of PARP1. Additionally, these aggregates are formed through PAR chains as abrogating PARP1 catalytic activity prevents their formation. Finally, these PARP1 nuclear aggregates persist long-term and are associated with cleaved cytoplasmic PARP1, a cell death hallmark, which ultimately leads to a non-apoptotic form of cell death. Overall, our data uncovers a novel mechanism of PARG inhibitor cytotoxicity, which will inform ongoing clinical studies.