The influence of selective serotonin reuptake inhibitors (SSRIs) on the pharmacokinetics of thioridazine and its metabolites: in vivo and in vitro studies.

Due to its psychotropic profile, thioridazine is a neuroleptic suitable for a combination with antidepressants in a number of complex psychiatric illnesses. However, because of its serious side-effects, such a combination with selective serotonin reuptake inhibitors (SSRIs) which inhibit cytochrome P-450 may be dangerous. The aim of the present study was to investigate a possible impact of SSRIs on the pharmacokinetics and metabolism of thioridazine in a steady state in rats. Thioridazine (10 mg/kg) was injected intraperitoneally, twice a day, for two weeks, alone or jointly with one of the antidepressants (fluoxetine, fluvoxamine or sertraline). Concentrations of thioridazine and its main metabolites (2-sulfoxide = mesoridazine; 2-sulfone = sulforidazine; 5-sulfoxide = ring sulfoxide and N-desmethylthiorid-azine) were assessed in the blood plasma and brain at 30 min, 6 and 12 h after the last dose of the drugs using an HPLC method. Fluoxetine potently increased (up to 13 times!) the concentrations of thioridazine and its metabolites in the plasma, especially after 6 and 12 h. Moreover, an increase in the sum of concentrations of tioridazine + metabolites and thioridazine/metabolite ratios was observed. In vitro studies with control liver microsomes, as well as with microsomes of rats treated chronically with fluoxetine show that the changes in the thioridazine pharmacokinetics may be attributed to the competitive (N-demethylation, Ki = 23 microM) and mixed inhibition (2- and 5-sulfoxidation, Ki = 60 microM and 34 microM, respectively) of thioridazine metabolism by fluoxetine, and to the adaptive changes produced by chronic administration of fluoxetine, as reflected by inhibition of N-demethylation and formation of sulforidazine. Sertraline seemed to have a tendency to decrease thioridazine concentration in vivo, though in vitro studies showed that - like fluoxetine - it competitively or via mixed mechanism inhibited the three metabolic pathways of thioridazine (Ki = 41 microM, 64 microM and 47 microM, respectively). Chronic treatment with sertraline stimulated thioridazine 2- and 5-sulfoxidation, which may be responsible for the observed tendency of sertraline to decrease concentrations of the neuroleptic. In the case of fluvoxamine, a tendency to increase the thioridazine level was observed, which may be connected with the competitive or mixed inhibition of thioridazine N-demethylation and 2-sulfoxidation by the antidepressant (Ki = 17 microM and 167 microM, respectively). Repeated administration of fluvoxamine did not produce any changes in the activity of thioridazine-metabolizing enzymes. In conclusion, of the SSRIs studied, only fluoxetine produces a substantial increase in the thioridazine level in the plasma and brain. In the case of fluvoxamine, a tendency to increase the thioridazine level should be considered. Coadministration of thioridazine and sertraline seems to be safe, though a tendency to decrease the thioridazine level may be expected.