Hypothalamus

About: Hypothalamus is a research topic. Over the lifetime, 22301 publications have been published within this topic receiving 1085925 citations.

Nitric oxide mediates leptin-induced luteinizing hormone-releasing hormone(lhrh) and lhrh and leptin-induced lh release from the pituitary gland

Abstract: Previous experiments have demonstrated that leptin releases luteinizing hormone-releasing hormone (LHRH) from median eminence (ME)-arcuate explants from male rats and also stimulates the release of follicle-stimulating hormone (FSH) and LH from anterior pituitaries with a potency not significantly different from that of LHRH itself. To determine the mechanism by which leptin acts at both the hypothalamic and pituitary level, we evaluated the effect of a competitive inhibitor of nitric oxide synthase (NOS), NG-monomethyl-L-arginine (NMMA) on the response to leptin. To evaluate the role of NO in the action of leptin to release LHRH, ME-arc explants were incubated with leptin (10[-11] M), a concentration shown earlier to give the most effective stimulation of LHRH release. NMMA (3 x 10[-4] M) completely inhibited the LHRH release induced by leptin. In other experiments, hemi-anterior pituitaries were incubated with NMMA with and without leptin at various concentrations (10[-9] - 10[-6] M). As in the case of hypothalamic explants, NMMA had no effect on basal release of LH; however, it completely blocked the stimulation of LH release induced by leptin. Interestingly, the release of LH induced by LHRH (4 x 10[-9] M) was also completely blocked by the inhibitor of NOS. The results provide evidence that leptin acts both at hypothalamic and pituitary level to stimulate NO release, presumably by acting on its receptors at both sites which then induces the release of either LHRH or LH, respectively. Furthermore, LH release induced by LHRH is also mediated by NO.

Central administration of leptin to ovariectomized ewes inhibits food intake without affecting the secretion of hormones from the pituitary gland: evidence for a dissociation of effects on appetite and neuroendocrine function.

Abstract: We have studied the effect of leptin on food intake and neuroendocrine function in ovariectomized ewes. Groups (n = 5) received intracerebroventricular infusions of either vehicle or leptin (20 microg/h) for 3 days and were blood sampled over 6 h on days -1, 2, and for 3 h on day 3 relative to the onset of the infusion. The animals were then killed to measure hypothalamic neuropeptide Y expression by in situ hybridization. Plasma samples were assayed for metabolic parameters and pituitary hormones. Food intake was reduced by leptin, but did not change in controls. Leptin treatment elevated plasma lactate and nonesterified fatty acids, but did not affect glucose or insulin levels, indicating a state of negative energy balance that was met by the mobilization of body stores. Pulse analysis showed that the secretion of LH and GH was not affected by leptin treatment, nor were the mean plasma concentrations of FSH, PRL, or cortisol. Expression of messenger RNA for neuropeptide Y in the arcuate nucleus was reduced by the infusion of leptin, primarily due to reduced expression per cell rather than a reduction in the number of cells observed. Thus, the action of leptin to inhibit food intake is dissociated from neuroendocrine function. These results suggest that the metabolic effects of leptin are mediated via neuronal systems that possess leptin receptors rather than via endocrine effects.

Behavioral effects of progesterone associated with rapid modulation of oxytocin receptors

Abstract: The ventromedial nuclei of the hypothalamus (VMN) are important for the control of feminine mating behavior, and hormone action within these nuclei has been causally related to behavior. Estradiol induces receptors for oxytocin in the VMN and in the area lateral to these nuclei over the course of 1 to 2 days, and progesterone causes, within 30 minutes of its application, a further increase in receptor binding and an expansion of the area covered by these receptors lateral to the VMN. The rapid progesterone effect appears to be a direct and specific effect of this steroid on the receptor or membrane, because it was produced in vitro as well as in vivo and was not mimicked by a variety of other steroids. The effect of progesterone occurred in the posterior part of the VMN, where oxytocin infusion facilitated feminine mating behavior; it did not take place in the anterior part of the VMN, where oxytocin infusion had no effect on mating behavior.