Caudal brainstem delivery of ghrelin induces fos expression in the nucleus of the solitary tract, but not in the arcuate or paraventricular nuclei of the hypothalamus

Ghrelin increases food intake when injected into either the forebrain or hindbrain ventricles. Brain areas activated by ghrelin after forebrain delivery have been examined using Fos immunohistochemistry and include the hypothalamic arcuate (Arc) and paraventricular (PVN) nuclei, and the nucleus of the solitary tract (NTS) in the medulla. It is not clear, however, if ghrelin applied directly to the hindbrain activates forebrain structures. Therefore, we examined Fos expression in the Arc, PVN, and NTS after injecting ghrelin into the fourth ventricle. Animals treated with a hyperphagic dose of ghrelin had greater levels of Fos expression in the NTS at the level of the area postrema than animals injected with vehicle. Ghrelin did not, however, increase Fos expression in the Arc or PVN in rats with open or occluded cerebral aqueducts. Given the importance of caudal brainstem (CBS) catecholamine pathways in the control of food intake, we performed double-labeling experiments to evaluate the potential overlap between tyrosine hydroxylase TH and ghrelin-induced Fos expression. Ghrelin did not increase Fos in TH-positive neurons in the NTS, suggesting that ghrelin delivered to the fourth ventricle does not act through catecholaminergic pathways. Nevertheless, the local (NTS), but not distal (Arc and PVN), induction of Fos suggests the presence of partially independent forebrain and hindbrain circuits that respond to ghrelin. These data support the NTS as a target of ghrelin action by building upon prior findings of increases in food intake in response to third- and fourth-ventricle ghrelin delivery.