Control of hepatic glycogen metabolism in the rhesus monkey: effect of glucose, insulin, and glucagon administration.

The effects of intravenous glucose, insulin and glucagon admininistration on the hepatic glycogen synthase and glycogen phosphorylase systems were assessed in the anesthetized rhesus monkey. Results were correlated with measurements of hepatic cyclic AMP (cAMP) concentrations and plasma glucose, insulin, and glucagon concentrations. Both glucose and insulin administration promoted significant inactivation of phosphorylase by 1 min, which was followed by more gradual activation of synthase. Neither glucose nor insulin caused significant changes in hepatic cAMP. Marked hyperglucagonemia resulting from insulin-induced hypoglycemia did not cause increases IN in hepatic cAMP, suggesting that the elevated insulin levels possibly inhibited glucagon action on the hepatic adenylate cyclase-cAMP system. Glucagon administration caused large increases in hepatic cAMP and activation of phosphorylase within 1 min, followed by more gradual inactivation of synthase when it had been previously activated by glucose. Concomitant glucose infusion, with resulting increased plasma insulin concentrations, markedly diminished the duration of hepatic cAMP elevations following glucagon adminstration, again suggesting an insulin inhibition of glucagon action on the hepatic adenylate-cAMP system.