Metabolism and disposition of pevonedistat, an investigational, first-in-class inhibitor of the NEDD8-activating enzyme (NAE), were characterized in patients with advanced solid tumors after intravenous infusion of [14C]pevonedistat at 25 mg/m2 (∼60-85 μCi radioactive dose). More than 94% of the administered dose was recovered, with ∼41% and ∼53% of drug-related material eliminated in urine and feces, respectively. The metabolite profiles of [14C]pevonedistat were established in plasma using an accelerator mass spectrometer and excreta with traditional radiometric analysis. In plasma, unchanged parent drug accounted for approximately 49% of the total drug-related material. Metabolites M1 and M2 were major (>10% of the total drug-related material) circulating metabolites and accounted for approximately 15% and 22% of the drug-related material, respectively. Unchanged [14C]pevonedistat accounted for approximately 4% and 17% of the dose in urine and feces, respectively. Oxidative metabolites M1, M2, and M3 appeared as the most abundant drug-related components in the excreta and represented approximately 27%, 26%, and 15% of the administered dose, respectively. Based on the unbound plasma exposure in cancer patients and in vitro NAE inhibition, the contribution of metabolites M1 and M2 to overall in vivo pharmacological activity is anticipated to be minimal. The exposure to these metabolites was higher at safe and well tolerated doses in rat and dog (the two preclinical species used in toxicology evaluation) plasma than that observed in human plasma. Reaction phenotyping studies revealed that CYP3A4/5 are primary enzymes responsible for the metabolic clearance of pevonedistat. SIGNIFICANCE STATEMENT: This study details the metabolism and clearance mechanisms of pevonedistat, a first-in-class NEDD8-activating enzyme inhibitor, after intravenous administration to patients with cancer. Pevonedistat is biotransformed to two major circulating metabolites with higher exposure in nonclinical toxicological species than in humans. The pharmacological activity contribution of these metabolites is minimal compared to the overall target pharmacological effect of pevonedistat. Renal clearance was not an important route of excretion of unchanged pevonedistat (∼4% of the dose).
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