Abstract
AZD0328 was pharmacologically characterized as a α7 neuronal nicotinic receptor agonist intended for treatment of Alzheimer′s disease. In vitro AZD0328 cross species metabolite profile and enzyme identification for its N-oxide metabolite were evaluated in this study.
AZD0328 was very stable in the human hepatocyte incubation, whereas extensively metabolized in rat, dog and guinea pig hepatocyte incubations. The N-oxidation metabolite (M6) was the only metabolite detected in human hepatocyte incubations, and it also appeared to be the major in vitro metabolic pathway in a number of preclinical species. In addition, N-glucuronide metabolite of AZD0328 was observed in human liver microsomes.
Other metabolic pathways in the preclinical species include hydroxylation in azabicyclo octane or furopyridine part of the molecule. Pyridine N-methylation of AZD0328 (M2) was identified as a dog specific metabolite, not observed in human or other preclinical species.
Multiple enzymes including CYP2D6, CYP3A4/5, FMO1 and FMO3 catalyzed AZD0328 metabolism. The potential for AZD0328 to be inhibited clinically by co-administered drugs or genetic polymorphism is relative low.
Acknowledgements
The authors thank Drs. Karl-Gustavand Jostell and Edwin Johnson at AstraZeneca for critical review.
Declaration of interest
Primary employment by AstraZeneca (D.Z., M.Z., C.G., X.Y., T.M.P., B.A.L., S.A.S, Y.-F.C., S.W.G.).