NEUROPEPTIDE-Y (NPY) MAY INTEGRATE RESPONSES OF HYPOTHALAMIC FEEDING SYSTEMS AND THE HYPOTHALAMO-PITUITARY-ADRENAL AXIS

Neuropeptide Y (NPY) is a powerful stimulus to food intake in the rat, Exogenous NPY given into the third ventricle or into the paraventricu lar nucleus (PVN) of the hypothalamus stimulates both food consumption as well as the hypothalamus-pituitary-adrenal (HPA) axis, Presumably NPY activates the adrenocortical system through direct stimulation of CRF containing cells in the PVN. Food intake is also a major regulator of adrenocortical activation, Rhythms in HPA axis activity follow rhy thms in food consumption, and rats that have been food deprived overni ght have inhibited HPA axis responses to restraint stress and corticos teroid feedback the following morning. To investigate the interaction of NPY with both feeding and HPA axis activation three sets of experim ents were performed: Animals fed ad rib were injected icy with NPY (2. 5 mu g) and allowed access to food or not post injection; animals were fasted overnight prior to NPY injection; finally, dose response exper iments were performed to examine the relative sensitivities of feeding and HPA axis activation to exogenous NPY, Ad lib fed animals allowed access to food after NPY injection had slightly greater ACTH responses to NPY while glucocorticoid and insulin responses were not significan tly different from ad rib fed animals not allowed access to food post injection. Animals allowed to eat post injection had significantly dec reased food consumption the night following injection, however, total 24 h food consumption was not different between these animals and thos e given food 8 h post NPY injection. In overnight fasted animals NPY i njections produced ACTH responses of equal magnitude to those in ad ri b fed animals. Insulin responses to NPY were significantly elevated co mpared to CSF controls in overnight fasted animals. Dose response stud ies revealed that the adrenocortical system responds to icy NPY with a t least as great sensitivity as feeding systems. NPY is discussed as a potential integrator of feeding and responsiveness in the HPA axis.