Angiotensinergic neurons physiologically inhibit prolactin, growth hormone, and thyroid-stimulating hormone, but not adrenocorticoptropic hormone, release in ovariectomized rats

Abstract

Angiotensin II (AII)-containing neurons with cell bodies in the rostral medial hypothalamus and axons project to the external layer of the median eminence, so that AII maybe released into the hypophyseal portal vessels for actions on the pituitary gland. Indeed, intrahypothalamic actions of the peptide on the release of hypothalamic hormones and direct actions on the pituitary have been reported. To determine the role of endogenously released AII in hypothalamic-pituitary hormone release, we have determined the effects of central immunoneutralization of AII upon the plasma concentrations of prolactin (PRL), growth hormone (GH), thyroid-stimulating hormone (TSH), and adrenocorticotropic hormone (ACTH). Specific antiserum directed against AII (AB-AII) or normal rabbit serum (NRS), as a control, was microinjected into third ventricular (3 V) cannulae of conscious, ovariectomized (OVX) rats. Immediately before and at various intervals after this procedure, blood samples were withdrawn through previously implanted external jugular catheters. Three hours after injection of the AB-AII, plasma PRL levels diverged from those of the NRS-injected animals and progressively increased from 4 to 24 h after administration of the antiserum. Results were similar with respect to plasma GH, except that the increase in the AB-AII animals above that in the NRS-injected controls from 4 to 6 h was not significant, but was highly significant on measurement 24 h after injection, at which time plasma GH was three times higher than in control rats. Similarly, following injection of AB-AII, plasma TSH values did not diverge significantly from those of the NRS-injected controls until 3 h after injection. From 3 to 5 h they remained constant and significantly elevated above values in the NRS-injected controls with a further nonsignificant increase at 6 h. At 24 h, there was no longer a difference between the values in both groups. In contrast to the significant elevations in plasma hormone levels observed with respect to PRL, GH, and TSH following injection of the antiserum, there was no change in plasma ACTH between the AB-AII-injected and NRS-injected animals throughout the same period of observation. Previous results by others have shown that intraventricular injection of AII has a suppressive action on the release of PRL, GH, and TSH. Consequently, we believe that the antiserum is acting intrahypothalamically to block the action of AII within the hypothalamus, resulting in the elevation of the three hormones mentioned. Therefore, the AII neurons appear to have a physiologically significant suppressive action on the release of hypothalamic neurohormones controlling the release of PRL, GH, and TSH. In contrast, there apparently is no effect of intrahypothalamically released AII on the secretion of corticotropin-releasing factors under these nonstress conditions. We cannot rule out an action of the antiserum at the pituitary level; however, in view of the fact that the actions of AII directly on the gland are to stimulate PRL, GH, TSH, and ACTH release, it appears that the antiserum was acting at the hypothalamic level.