HTS discovery of PARP1-HPF1 complex inhibitors in cancer.

PARP1/2 inhibitors (PARPi) are effective clinically used drugs for the treatment of cancers with BRCA deficiencies. PARPi have had limited success and applicability beyond BRCA deficient cancers, and their effect is diminished by resistance mechanisms. The recent discovery of Histone PARylation Factor (HPF1) and the role it plays in the PARylation reaction by forming a shared active site with PARP1 raises the possibility that novel inhibitors that target the PARP1-HPF1 complex can be identified.

Slow Dissociation from the PARP1-HPF1 Complex Drives Inhibitor Potency.

PARP1, upon binding to damaged DNA, is activated to perform poly ADP-ribosylation (PARylation) on itself and other proteins, which leads to relaxation of chromatin and recruitment of DNA repair factors. HPF1 was recently discovered as a protein cofactor of PARP1 that directs preferential PARylation of histones over other targets by contributing to and altering the PARP1 active site. Inhibitors of PARP1 (PARPi) are used in the treatment of BRCA-/- cancers, but the basis for their potency in cells, especially in the context of HPF1, is not fully understood.