Different Regiospecificity in the Hydroxylation of the Antidepressant Desmethylimipramine Between Rat Brain and Liver

Abstract

Incubation of the tricyclic antidepressant desmethylimpramine (DMI) with rat liver or brain microsomes in the presence of NADPH or t‐butyl‐hydroperoxide (TBH) revealed different regiospecificities in the hydroxylation reactions between the tissues. In brain preparations 10‐OH‐DMI was formed in reactions supported by NADPH or TBH, whereas in the latter case also an unidentified metabolite could be detected. Inclusion of exogenous NADPH‐cytochrome P450 reductase in the brain preparations caused a 10‐fold higher rate of 10‐hydroxylation but no 2‐OH‐DMI could be detected. By contrast, liver microsomal preparations in the presence of NADPH catalyzed formation of both 2‐ and 10‐OH‐DMI, whereas only 10‐OH‐DMI was formed in TBH‐supported reactions. The results indicate that antidepressant drugs can be metabolized in brain with different stereospecificity as compared to liver.