Abstract

The stereochemical course of cytochromes P450 [P4501A1, P4502B1, P4502B4, and P450101 (P450cam)] catalyzed alpha-carbon oxidations of the cis-(Z)- and trans-(E)-5'-d1 diastereomers of (S)-nicotine has been examined. All enzyme preparations led to the stereoselective abstraction of the 5'-hydrogen atom trans to the pyridine ring with P450101 and human liver microsomal preparations displaying the highest (90%) and P4502B1 the lowest (67%) degree of stereoselectivity. No isotope effect was detected for any of the enzyme-catalyzed reactions, although the existence of an intrinsic isotope effect was inferred by the observation of an intramolecular isotope effect of 2-2.6 observed for the N-demethylation of (S)-N'-dideuteromethylnornicotine. Evidence for P450101-catalyzed N'-oxidation was sought but could not be found at higher than trace levels. These results, together with those obtained by computational methods, are interpreted in terms of an alpha-carbon oxidative pathway involving hydrogen atom abstraction rather than single electron transfer as the initiating event in the P450-catalyzed oxidation of (S)-nicotine to its delta 1',5'-iminium ion metabolite.