Abstract

Dopamine (DA), via dopaminergic neurons, modulates prolactin secretion from the pituitary by tonic inhibition of lactotropes. Previously, kisspeptin (Kp) attenuated the prolactin response to the DA antagonist, sulpiride, in diestrous mares and enhanced the prolactin response to sulpiride in estradiol-primed mares. Whether or not Kp can modulate prolactin by acting on DA neurons has yet to be described in horses; therefore, the objective of this study was to determine if Kp and kisspeptin receptor (Kiss1r) co-localize with DA neurons, thus providing evidence for a direct action of Kp on DA neurons. Hypothalami from 4 light-horse diestrous mares, aged 6 to 21, were obtained following euthanasia. Mares were determined to be diestrous based on presence of corpora lutea and progesterone concentrations. Immediately following euthanasia, the carotid artery was perfused with sodium nitrite and 4% paraformaldehyde before decapitation and dissection of hypothalami. Immunofluorescent double labeling of tyrosine hydroxylase (TH) and Kp, as well as TH and Kiss1r, was carried out on paraffin-embedded hypothalamic sections using validated antibodies. Whole slide scans were analyzed for double-labeled cells; percentage of DA neurons colocalized with Kp-ir cell bodies and fibers, as well as percentage of DA neurons colocalized with Kiss1r-ir cells, were calculated and averaged for multiple sectionsper horse from rostral to caudal throughout the hypothalamus. Similarly, percentage and number of Kp or Kiss1r-ir cell bodies co-colocalized with TH-ir cells were calculated for different hypothalamic regions: the arcuate nucleus (Arc), ventromedial nucleus (VMH), and dorsomedial nucleus (DMH), and compared using Kruskall Wallis with Dunn's multiple comparison test. DA neurons were observed lining the third ventricle and spread from the Arc to the DMH, with little to none present in the posterior nucleus. TH and Kp expressing cell bodies co-localized between 8 and 30%, with less in the caudal DMH (P ≤ 0.05) compared with the Arc. Kp fibers synapsed with TH-expressing cell bodies at a low percentage, between 0 and 16%, with less connections in the DMH (P ≤ 0.05) than in the ARC. TH and Kiss1r co-localized between 20 and 65%, with similar distribution throughout the Arc, VMH, and DMH in rostral sections. In caudal hypothalamic sections, co-localization was greater (P ≤ 0.05) in the Arc compared with other areas that express lower or no DA neurons. Co-localization of TH and Kiss1r as well as co-localization and synaptic attachment of Kp on TH positive cells suggests a direct effect of kisspeptin on DA neurons to modulate prolactin release.

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