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Abstract
The disposition and metabolism of prexasertib, a CHK-1 inhibitor was characterised over a 120 h period following a single 170-mg intravenous dose of [14C]prexasertib (50 µCi) to 6 patients with advanced/metastatic solid tumours.
The prexasertib safety profile was consistent with prior studies. Plasma, urine, and faeces were analysed for radioactivity, prexasertib, and metabolites. Geometric mean t1/2 in plasma was 34.2 h for prexasertib and 73.8 h for total radioactivity. Unchanged prexasertib accounted for approximately 9% of plasma total radioactivity, indicating extensive metabolism by the presence of circulating metabolites. Both renal and faecal excretion were identified as important routes of elimination since 41.8% (±12.9%) of the total administered radioactivity was recovered in the renal excretions and 32.2% (±7.28%) in the faecal excretions. Mean renal clearance was approximately 15% of the total systemic clearance, while biliary clearance was also low. Prexasertib was cleared predominantly by metabolism with only 23% of the dose recovered in excreta as intact drug. Radioactivity was eliminated predominantly within 72 h in urine, but faecal elimination was protracted.
The metabolism of prexasertib was complex while primary metabolic clearance pathways involved were oxidative deamination, O-dealkylation, mono-oxidation, and possibly direct glucuronide conjugation. Although prexasertib was the major component in plasma, up to 11 metabolites were observed. The most abundant metabolites identified in plasma were glucuronides and none of these are expected to contribute to the pharmacological activity or pose a safety concern.
Acknowledgements
The authors would like to thank the principle investigator, Professor Daniel Palmer MBChB, FRCP Royal Liverpool and Broadgreen NHS Trust, Liverpool, UK and also Aimee Lin, PhD for critical review of this manuscript. Writing and editorial assistance in the preparation of this manuscript were provided by Altovise Van Matre, MBA (Syneos Health, Raleigh, NC, USA).
Disclosure statement
This work was supported by Eli Lilly and Company. Wickremsinhe, Hynes, Payne, Guo, and Cassidy are employees and shareholders of Eli Lilly and Co.