Inhibition of serotonin outflow by nociceptin/orphaninFQ in dorsal raphe nucleus slices from normal and stressed rats: Role of corticotropin releasing factor

In the dorsal raphe nucleus (DRN) many inputs converge and interact to modulate serotonergic neuronal activity and the behavioral responses to stress. The effects exerted by two stress-related neuropeptides, corticotropin releasing factor (CRF) and nociceptin/orphaninFQ (N/OFQ), on the outflow of [3H]5-hydroxytryptamine were investigated in superfused rat dorsal raphe nucleus slices.Electrical stimulation (100 mA, 1 ms for 2 min) evoked a frequency-dependent peak of [3H]5-hydroxytryptamine outflow, which was sodium and calcium-dependent. Corticotropin releasing factor (1–100 nM), concentration-dependently inhibited the stimulation (3 Hz)-evoked [3H]5-hydroxytryptamine outflow; the inhibition by 30 nM corticotropin releasing factor (to 68 ± 5.7%) was prevented both by the non selective CRF receptor antagonist alpha-helicalCRF(9-41) (α-HEL) (300 nM) and by the CRF1 receptor antagonist antalarmin (ANT) (100 nM). The CRF2 agonist urocortin II (10 nM) did not modify [3H]5-hydroxytryptamine outflow, ruling out the involvement of CRF2 receptors. Bicuculline (BIC), a GABAA antagonist (10 μM), prevented the inhibitory effect of corticotropin releasing factor (30 nM), supporting the hypothesis that the inhibition was mediated by increased γ-aminobutyric acid (GABA) release. Nociceptin/orphaninFQ (1 nM–1 μM) exerted an antalarmin- and bicuculline-insensitive inhibition on [3H]5-hydroxytryptamine outflow, with the maximum at 100 nM (to 63 ± 4.2%), antagonized by the NOP receptor antagonist UFP-101 (1 μM). Dorsal raphe nucleus slices prepared from rats exposed to 15 min of forced swim stress displayed a reduced [3H]5-hydroxytryptamine outflow, in part reversed by antalarmin and further inhibited by nociceptin/orphaninFQ. These findings indicate that (i) both corticotropin releasing factor and nociceptin/orphaninFQ exert an inhibitory control on dorsal raphe nucleus serotonergic neurons; (ii) the inhibition by corticotropin releasing factor involves γ-aminobutyric acid neurons; (iii) nociceptin/orphaninFQ inhibits dorsal raphe nucleus serotonin system in a corticotropin releasing factor- and γ-aminobutyric acid-independent manner; (iv) nociceptin/orphaninFQ modulation is still operant in slices prepared from stressed rats. The nociceptin/orphaninFQ-NOP receptor system could represent a new target for drugs effective in stress-related disorders.