Abstract
Abstract Pancreatic cancer is reported to be dependent on NAD salvage pathway for its growth and survival. Nicotinamide phosphoribosyl transferase (NAMPT), an enzyme that catalyzes the rate limiting step of NAD biosynthesis is over expressed in a number of cancers. Inhibition of NAMPT with first generation inhibitors has been demonstrated to result in anti-tumor efficacy in preclinical models. Clinical development of first generation NAMPT inhibitors has been hindered because of their poor pharmacological profile, high cytochrome inhibition and possibly mechanism-based toxicities. Therefore, our objective was to develop NAMPT inhibitors with the “best-in-class” profile with strategies for overcoming mechanism-based toxicities. Utilizing structure-guided drug design including determination of co-crystal structures and SAR-based approaches, we have identified a novel chemical series of inhibitors of NAMPT. Optimization of the series for transient target inhibition as a result of reduced binding strength coupled with desirable pharmacokinetic profile to minimize mechanism based toxicity resulted in identification of AU-4869 as the lead compound. AU-4869 showed potent cross-species activity and reduced strength of binding in comparison with first generation NAMPT inhibitors. Anti-proliferative activity of AU-4869 correlated well with NAD depletion in a pancreatic cancer cell line. The anti-proliferative activities were rescued in NAPRT-proficient cell lines with the addition of nicotinic acid due to the NAMPT independent salvage pathway for biosynthesis of NAD, confirming the mechanism of action through NAD depletion. AU-4869 exhibited desirable drug-like properties including solubility, permeability, metabolic stability, lack of CYP & hERG inhibition and pharmacokinetic exposure upon oral dosing. At well-tolerated doses, AU-4869 exhibited superior efficacy at MTD doses in mice xenograft models as compared to first generation inhibitors. Addition of nicotinic acid improved the tolerability of AU-4869 and reversed the effects of mechanism based toxicity in Rodents. Anti-tumor activities of AU-4869 in the presence of nicotinic acid in NAPRT-deficient pancreatic cancer models are currently being evaluated in preclinical models. Citation Format: Dinesh Chikanna, Anirudha Lakshminarasimhan, Vinayak Khairnar, Sunil Panigrahi, Anuradha Ramanathan, Narasimha Rao, Kishore Narayanan, Sreevalsam Gopinath, Raghuveer Ramachandra, Shekar Chelur, Chetan Pandit, Murali Ramachandra. Novel NAMPT inhibitors for the treatment of Pancreatic cancer. [abstract]. In: Proceedings of the AACR Special Conference: Metabolism and Cancer; Jun 7-10, 2015; Bellevue, WA. Philadelphia (PA): AACR; Mol Cancer Res 2016;14(1_Suppl):Abstract nr A72.
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