Synergistic enhancement of PARP inhibition via small molecule UNI66-mediated suppression of BRD4-dependent transcription of RAD51 and CtIP.

Targeted therapy leveraging synthetic lethality in homologous recombination (HR)-defective tumors, particularly in BRCA-mutated tumors through poly(ADP-ribose) polymerase (PARP)-dependent repair inhibition, has shown success. However, the challenge lies in the ability of the tumors to reactivate HR via diverse mechanisms, leading to resistance against PARP-dependent repair inhibition. Addressing this issue, the down-regulation of HR activity has been explored as a potential strategy to overcome PARP inhibitor-resistant tumors. Yet, the intricate modulation of HR gene expression in mammalian cells is still not fully understood. In this study, we used a small molecule, UNI66, identified from high-throughput screening, to investigate regulatory mechanisms of HR. UNI66 was observed to induce synthetic lethality in PARP1-deficient cells and enhanced the sensitivity of multiple cancer cells to PARP inhibitors, suggesting a role in HR down-regulation. Mechanistically, UNI66 was found to interact with and inhibit BRD4 protein binding to the promoters of CtIP and RAD51 genes, resulting in the down-regulation of their transcription. This decrease in CtIP and RAD51 expression was associated with reduced HR activity, thereby increasing the sensitivity of tumors to PARP inhibitors. These findings indicate that BRD4-mediated transcriptional regulation of CtIP and RAD51 influences HR activity, which may have implications for overcoming resistance to PARP inhibitors.