An electrophysiological and morphological investigation of the projections of growth hormone-releasing peptide-6-responsive neurons in the rat arcuate nucleus to the median eminence and to the paraventricular nucleus.

Growth hormone-releasing peptide-6 injection induces c-fos messenger RNA expression in many arcuate nucleus neurons, and sub-populations of neurons in this region project to the hypothalamic paraventricular nucleus. We examined electrophysiologically whether arcuate nucleus neurons that project to the paraventricular nucleus also project to the median eminence, and whether these neurons are activated by systemic injection of growth hormone-releasing peptide-6. Of 116 arcuate nucleus neurons tested, 43 were antidromically-identified as projecting to the paraventricular nucleus and a further 30 as projecting to the median eminence; these populations displayed distinct electrophysiological characteristics, and contrasting patterns of orthodromic response to stimulation of the median eminence and paraventricular nucleus, indicating that these two populations are functionally distinct with limited communication between them. Only one cell was antidromically-identified as projecting to both these regions. Three of 10 arcuate nucleus neurons that projected to the paraventricular nucleus were activated by injection of growth hormone-releasing peptide-6. In parallel experiments, we examined whether Fos protein expression is induced in arcuate nucleus neurons that project to the paraventricular nucleus, as identified by retrograde-labelling with FluoroGold. Immunocytochemical studies revealed that 20% of arcuate nucleus neurons that were retrogradely-labelled from the paraventricular nucleus were Fos-positive following growth hormone-releasing peptide-6 injection, although cells that were both Fos-positive and retrogradely-labelled accounted for less than 5% of the total number of Fos-positive arcuate nucleus neurons. These results confirm that there is a direct projection from the arcuate nucleus to the paraventricular nucleus and indicate that growth hormone-releasing peptide-6 activates some of these neurons.