Abstract
The oxidation of d-amphetamine by rabbit liver microsomes has been studied using oxygen-18 as the source of oxygen. Incorporation of heavy oxygen into the two major metabolites phenylacetone oxime and phenylacetone, was 93–95% and 25–31% respectively. These data are consistant with a mechanism in which the initial step is the hydroxylation of the substrate at the carbon atom α to the amino group. The carbinol amine which is formed by this reaction then serves as the key intermediate from which ketone and oxime are formed. Thus, oxime can form from carbinol amine in two step, (1) dehydration of carbinol amine and (2) oxygenation of the resulting imine. Phenylacetone can form by two pathways (1) loss of a molecule of ammonia from carbinol amine (incorporation of oxygen from molecular oxygen) and (2) hydrolysis of oxime (incorporation of oxygen from water). In the case of d-amphetamine the hydrolytic route appears to be the more important as suggested by Hucker, et al. (4, 5).
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