Metabolic oxidation of desmethylchlorimipramine in vitro by 9000 g rabbit-liver preparations

Metabolism of chlorpromazine and promazine in vitro: isolation and characterization of N-oxidation products

1. The syntheses of the secondary hydroxylamines of nor1chlorpromazine and nor1promazine via their corresponding primary hydroxylamines and oximes are described. 2. The N-oxidation products are unstable to analysis by g.l.c. without prior derivatization; the decomposition products and the structures of the trimethylsilyl (TMS) and trifluoroacetyl (TFA) derivatives were characterized by g.l.c.-mass spectrometry. 3. Chlorpromazine, promazine and their demethylated products were shown to undergo metabolic N- and alpha-C-oxidation, to yield hydroxylamines and carboxylic acids, on incubation with fortified 9000 g liver homogenates of male New Zealand white rabbits. 4. A condensation product, an artifact formed by reaction of the metabolically derived primary hydroxylamines with acetaldehyde, an impurity in the extraction solvent, diethyl ether, was identified. 5. N-hydroxynor1- and N-hydroxynor2chlorpromazine undergo metabolic reduction to the parent amines, and the secondary hydroxylamine undergoes N-demethylation to yield the corresponding primary hydroxylamine.

Metabolism of imipramine in vitro: synthesis and characterization of N-hydroxydesmethylimipramine

The synthesis of N-hydroxydesmethylimipramine via the corresponding primary hydroxylamine and oxime is described. The N-oxygenated products are unstable to g.l.c. analysis without prior derivatization; the decomposition products are identified by g.l.c.-mass spectrometry. N-Hydroxydesmethylimipramine is shown to be a metabolite of imipramine and desmethylimipramine on incubation of either with fortified 9000 g liver homogenates of male New Zealand white rabbits. The metabolic product is characterized by mass spectrometry and n.m.r. Didesmethylimipramine is shown to undergo metabolic alpha-C-oxidation, to yield the carboxylic acid, 3-(10,11-dihydro-5H-dibenz[b, f]azepin-5-yl)propionic acid, but not N-oxidation. N-Hydroxydesmethylimipramine is metabolically reduced to desmethylimipramine and metabolized further to 10-hydroxydesmethylimipramine, 2-hydroxydesmethylimipramine and the carboxylic acid. The possible role of N-hydroxydesmethylimipramine and 3-(10,11-dihydro-5H-dibenz[b,f]azepin-5-yl)propionic acid in the formation of iminodibenzyl is discussed.