Stimulation of Dopamine D 1 Receptors Increases Activity of Periventricular Somatostatin Neurons and Suppresses Concentrations of Growth Hormone

Abstract

The selective dopamine D 1 receptor agonist, SKF38393, stimulates release of somatostatin (SS) from perifused bovine hypothalamic slices. Therefore, we hypothesized that SKF38393 activates SS neurons, which, via release of SS, would suppress concentrations of growth hormone (GH) in serum in calves. Our objectives were to determine whether SKF38393: (1) increases the percent of immunoreactive c-Fos protein and Fos-related antigens (Fos/FRA) detected in somatostatin neurons in periventricular (PeVN) and arcuate (ARC) hypothalamic nuclei; (2) reduces concentrations of GH in serum; (3) suppresses growth hormone-releasing hormone (GHRH)-induced release of GH. Meal-fed steers were used to perform these objectives because a synchronous pulse of GH occurs 1–2 hr before feeding in steers allowed access to feed for 2 hr each day. In Experiment 1, two groups of four Holstein steers were injected s.c. with either vehicle (sterile water) or SKF38393 (5 mg/kg BW). Steers were injected i.v. with a lethal dose of sodium pentobarbital 100 min later and their brains were fixed with 4% paraformaldehyde. Dual-label immunohistochemistry was performed on 40 μm free-floating sections using antiserum to SS and to Fos/FRA on sections containing PeVN and ARC nuclei. More SS neurons were detected in the PeVN than in the ARC. The percent of SS neurons with immunoreactive Fos/FRA present was 2.9-fold higher in SKF38393-treated compared with vehicle-injected steers in the PeVN, but was unchanged in the ARC. In Experiment 2, eight Holstein steers were injected s.c. with either vehicle (sterile water) or SKF38393 (5 mg/kg BW) 140 min before meal-feeding. In contrast to controls, concentrations of GH in serum of SKF38393-treated steers did not increase during the 140 min before meal-feeding. In Experiment 3, eight Holstein steers were injected s.c. with either vehicle (sterile water) or SKF38393 (5 mg/kg BW), then 100 min later, each steer was injected i.v. with [Leu 27, Hse 45] bGHRH 1–45 lactone (0.2 μg/kg BW). Bovine GHRH stimulated release of GH into serum in both groups, but concentrations of GH were lower in SKF38393-treated steers. These results show that stimulation of D 1 receptors selectively increases activity of SS neurons in the PeVN, and this increased activity is associated with suppressed basal- and GHRH-induced release of GH in serum of meal-fed steers.