Enhancement of insulin and glucagon secretion by arginine after hepatic vagotomy.

The hepatic vagus nerve consists of mostly afferent fibers in the rat, and is a major afferent pathway between the liver and the medulla. The present study was carried out to examine the role of the hepatic branch of the vagus nerve in secretion of insulin and glucagon after intraperitoneal injection of arginine (1 g/kg body wt.) in rats. Measurements were made one week after section of this branch. Intraperitoneal arginine enhanced both plasma insulin and glucagon concentrations; more in hepatic-vagotomized than in sham-vagotomized rats. The results suggest that inhibition of the secretion of insulin and glucagon after arginine stimulation is mediated by the hepatic branch of the vagus nerve. The existence of 'sensors' in the liver for arginine, or its derivatives, is proposed as an explanation for the inhibition of the secretion of insulin and glucagon by the hepatic vagus nerve.