Recently, local injection of morphine in the dorsal raphe nucleus (DRN) has been shown to increase serotonin release in the forebrain of unanesthetized rats. This study investigated the site of action of opioids in rat brain slices containing the DRN. Postsynaptic currents (PSCs), measured intracellularly under voltage clamp, were induced in serotonergic neurons with bath and microiontophoretic applications of NMDA to activate local neurons. Met-enkephalin (ENK) suppressed spontaneous and NMDA-induced GABAergic inhibitory PSCs. This effect, which was mimicked by the mu agonist DAMGO but not the kappa-agonist U50488 or the delta-agonist DPDPE, was reversed by the mu antagonist CTOP. ENK also suppressed spontaneous and NMDA-induced glutamatergic excitatory PSCs. By searching with focal microiontophoretic NMDA applications, GABAergic and glutamatergic cells projecting on serotonergic neurons were found in the DRN and the adjacent periaqueductal gray. Consistent with the reduction in PSCs, ENK inhibited/hyperpolarized the great majority (81%) of non-serotonergic neurons recorded extra- and intracellularly in the DRN; the ENK effect reversed polarity at -99 +/- 9 mV, close to the potassium reversal potential. In contrast, ENK inhibited/hyperpolarized only 28% of serotonergic neurons; in the affected cells, the ENK effect, blocked by CTOP, had its reversal potential shifted with change of extracellular potassium in agreement with the value predicted by the Nernst equation for a potassium conductance; serotonin occluded the ENK inhibition. Taken together, these results indicate that opioids inhibit both local GABAergic and glutamatergic cells projecting onto DRN serotonergic neurons.