The site of action of naloxone in suppressing food and water intake in rats

Abstract

Previous studies have shown that naloxone causes a decrease in food and water intake; however, the site of this action has not been determined. We investigated this problem by giving bilateral injections of 15 μg/rat of naloxone into the lateral ventricles of cannulated, food and water deprived rats. This treatment caused a significant decrease in food intake when compared to saline injected controls. Water intake in naloxone-treated animals did not differ significantly from that of saline-treated controls during the one hour test period. The total dose of naloxone given centrally, 15 μg, did not produce a change in eating or drinking if given peripherally. The findings imply that naloxone exerts its effect on food intake at a central site. A dose-related and significant suppression of water intake was seen after treatment with nalaxone peripherally (1, 3, and 10 mg/kg, i.p.) in rats with either subdiaphragmatic vagotomy (vag) or a sham vagotomy (sham). Although a significant suppression of food intake was seen in the sham rats, no supression of food intake was seeen in the vag rats at any dose of naloxone tested. In rats pretreated with methyl atropine (5 mg/kg, i.p.), naloxone (3 mg/kg, i.p.) was equivalent to saline in that it did not decrease food intake. However, nalaxone did cause a significant decrease in water intake in methylatropine pre-treated rats. These results suggest that the suppression of food intake by naloxone has a central site of action which is mediated by the vagus, and specifically by vagal efferents, since the effect was blocked by methylatropine. The results also suggest that naloxone's effect on water intake is mediated by a different mechanism than that involved with food intake.