Nms-P293, A Novel Potent And Selective Parp-1 Inhibitor With High Antitumor Efficacy And Tolerability

Poly(ADP-ribose) polymerase-1 (PARP-1) has a well-established role in the signaling and repair of DNA and is a prominent target in oncology. Inhibition of PARP-1 is synthetically lethal with loss of function of the BRCA1 and BRCA2 tumor suppressor genes, as well with additional DNA repair defects. Tumor cells harboring defects in DNA repair pathways can thus be selectively targeted with PARP-1 inhibitors, and several such compounds are at different stages of clinical investigation in diverse tumor types, either as single agents or in combination regimens. However none of these agents selectively inhibits PARP-1 within the PARP family of enzymes: all drugs currently in clinical development, as well as the vast majority of preclinical compounds described to date potently cross-inhibit PARP-2, due to the high sequence homology between the two enzymes. Although PARP-2 is reported to be involved in DNA single-strand break repair, its contribution to total cellular levels of DNA damage-induced PARP activity is minimal (5-10%). Gene ablation studies show that loss of both PARP-1 and -2 function is incompatible with normal embryonic development, while PARP-2 single knockout mice show a variety of defects, including impaired erythropoiesis, thymopoiesis adipogenesis and spermatogenesis, increased neuronal loss after ischemic damage and higher risk of pancreatitis following chemical insult. We therefore reasoned that a potent and highly selective PARP-1 inhibitor might represent a significant advancement over currently available agents targeting both PARP-1 and -2, since sparing of PARP-2 inhibition potentially limits on target side-effects and offers greater opportunity for combination with other chemotherapeutic agents. Here we describe the preclinical characterization of NMS-P293, a novel highly potent PARP-1 inhibitor possessing u003e200-fold selectivity versus PARP-2. In cells, NMS-P293 inhibits hydrogen peroxide induced poly ADP-ribose (PAR) synthesis with an IC 50 in the single digit nanomolar range, confirming expected mechanism of action in cells. NMS-P293 is selectively active on tumor cell lines defective in the HR repair pathway, such as pTEN and BRCA mutated lines, while sparing DNA repair proficient cells and normal myelocytes. NMS-P293 possesses favorable ADME properties including a low efflux ratio, high cross-species metabolic stability, low clearance and nearly complete oral bioavailability in rodents and non rodents. Oral administration to mice bearing BRCA mutated breast cancer xenografts resulted in complete tumor regressions and cures. The highly favorable preclinical characteristics of NMS-P293 make this compound a promising candidate for further development. Citation Format: Alessia Montagnoli, Sonia Rainoldi, Antonella Ciavolella, Dario Ballinari, Francesco Caprera, Lucio Ceriani, Rosita Lupi, Marina Ciomei, Eduard Felder, Antonella Isacchi, Daniele Donati, Arturo Galvani, Gianluca Papeo. NMS-P293, a novel potent and selective PARP-1 inhibitor with high antitumor efficacy and tolerability. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1223.