Subcellular targeting of kappa-opioid receptors in the rat nucleus locus coeruleus.

The dynorphin (DYN)-kappa opioid receptor (kappaOR) system has been implicated in stress modulation, depression, and relapse to drug-seeking behaviors. Previous anatomical and physiological data have indicated that the noradrenergic nucleus locus coeruleus (LC) is one site at which DYN may contribute to these effects. Using light microscopy, immunofluorescence, and electron microscopy, the present study investigated the cellular substrates for pre- and postsynaptic interactions of kappaOR in the LC. Dual immunocytochemical labeling for kappaOR and tyrosine hydroxylase (TH) or kappaOR and preprodynorphin (ppDYN) was examined in the same section of tissue. Light microscopic analysis revealed prominent kappaOR immunoreactivity in the nuclear core of the LC and in the peri-coerulear region where noradrenergic dendrites extend. Fluorescence and electron microscopy revealed kappaOR immunoreactivity within TH-immunoreactive somata and dendrites in the LC as well as localized to ppDYN-immunoreactive processes. In sections processed for kappaOR and TH, approximately 29% (200/688) of the kappaOR-containing axon terminals identified targeted TH-containing profiles. Approximately 49% (98/200) of the kappaOR-labeled axon terminals formed asymmetric synapses with TH-labeled dendrites. Sections processed for kappaOR and ppDYN showed that, of the axon terminals exhibiting kappaOR, 47% (223/477) also exhibited ppDYN. These findings indicate that kappaORs are poised to modulate LC activity by their localization to somata and dendrites. Furthermore, kappaORs are strategically localized to presynaptically modulate DYN afferent input to catecholamine-containing neurons in the LC. These data add to the growing literature showing that kappaORs can modulate diverse afferent signaling to the LC.