In the present study, in vivo extracellular unitary recordings, in vitro [³H]5-HT uptake and [³H]cyanoimipramine binding assays were used to assess the effect of acute and prolonged administration of the putative antidepressant tianeptine, on the 5-hydroxytryptamine (5-HT) transporter. Microiontophoretic application of tianeptine onto dorsal hippocampus CA₃ pyramidal neurons, as well as its intravenous administration (2 mg/kg), increased their firing frequency. Following intracerebroventricular administration of 5,7-dihydroxytryptamine, the activation induced by the microiontophoretic application of tianeptine remained unchanged, thus suggesting that the 5-HT carrier is not involved in this effect. Furthermore, in spite of its activating effect on CA₃ pyramidal neuron firing frequency, the intravenous administration of tianeptine did not alter the time of recovery of these neurons from microiontophoretic applications of 5-HT, an index of 5-HT uptake activity. In keeping with this observation, the acute administration of tianeptine did not change the effectiveness of the 5-HT reuptake blocker paroxetine (1 mg/kg, i.v.) in prolonging the suppressant effect of microiontophoretically-applied 5-HT. However, in rats that had received tianeptine for 14 days (20 mg/kg/day, s.c.), the recovery time from the suppressant effect of microiontophoretic applications of 5-HT was reduced by 40% and the effectiveness of paroxetine (1 mg/kg, i.v.) was decreased. These effects were no longer observed following a 48 h washout period. In a second series of experiments, the ability of tianeptine to interfere with the uptake blocking capacity of paroxetine was assessed in vitro, using hippocampal slices obtained from rats that had been treated with tianeptine for 14 days (20 mg/kg/day, s.c.; by minipump). The effectiveness of paroxetine to block [³H]5-HT uptake was unchanged in slices obtained from rats still bearing the osmotic minipump at the time of the sacrifice, as well as from those which had undergone a 48 h washout period. To assess whether prolonged administration of tianeptine would induce adaptive changes on 5-HT uptake sites, [³H]cyanoimipramine-binding parameters were measured following a 48 h washout period. Affinity values remained unchanged while density values were significantly increased in cortex (+22%) but not in hippocampus (+12%). It is concluded that, i) the activation of CA₃ pyramidal neurons observed following acute tianeptine administration cannot be attributed to its 5-HT uptake enhancing properties and ii) the prolonged administration of tianeptine induces adaptive changes on cortical but not on hippocampal 5-HT transporters.