Cloning studies have identified a novel seven transmembrane receptor displaying high sequence homology to the three classical opioid receptors (mu, delta and kappa). This receptor is widely distributed throughout the CNS. 1 Recently, an endogenous ligand for this receptor was isolated (termed either "orphanin FQ" or "nociceptin") and identified as a heptadecapeptide showing sequence homology with the endogenous opioids. Surprisingly, in contrast to known opioids, orphanin FQ displays hyperalgesic rather than analgesic properties. Furthermore, in contrast to enkephalins and endorphins, but similarly to dynorphins, this peptide has inhibitory actions upon locomotor activity. These preliminary data suggest that orphanin FQ systems may act in an opposing manner to the previously well-described enkephalin and endorphin systems. Since numerous studies have implicated activation of the mesolimbic dopamine pathway to be central to the rewarding actions of opiates such as morphine and heroin, as well as several other abused drugs, and also to mediate the hyperlocomotory action of such drugs, we sought to determine the effect of orphanin FQ on this pathway. In accordance with the inhibitory effect of this peptide on locomotor activity, we now report that orphanin FQ suppresses dopamine release in the nucleus accumbens in a dose-dependent manner, providing the first neurochemical evidence for a modulatory role of this recently described peptide in the CNS.