Xevinapant, an oral IAP (inhibitor of apoptosis protein) inhibitor, has been investigated in several clinical studies for the treatment of various cancers. In the course of the clinical pharmacology program, a novel circulating metabolite of xevinapant, oxidated D-1143-MET1 (oxMET1), has been identified in the human mass balance study, which had not been detected in previous non- and clinical studies but represented almost 10% of the total drug exposure after single-dose administration and was therefore pinpointed for its structural and initial nonclinical characterization.2. Using high-resolution mass spectrometry (HRMS) and nuclear magnetic resonance (NMR) spectroscopy after a semi-preparative isolation of oxMET1 it was possible to determine its definitive structure.3. In cellular mechanistic studies demonstrated that oxMET1 exhibited only negligible inhibitory activity on cIAP1, and thus, taking the low unbound fraction in human plasma into account, contribution to in vivo efficacy was considered low.4. In addition, coverage of human exposure could be shown in plasma samples from toxicity studies performed with preclinical species, so oxMET1, although likely major, was not a disproportionate circulating metabolite in humans. Based on these findings, this metabolite did not raise safety concerns according to the MIST guidelines, however it warrants further characterization of its drug-drug interaction (DDI) potential according to current DDI guidelines. The integrated workflow presented here highlights the importance of metabolite characterization in drug development.
Lang et al. (Mon,) studied this question.