Regulation of the hepatic response to glucagon: role of insulin, growth hormone and cortisol.

Abstract

The hepatic response to glucagon was investigated in five groups of animals: (1) controls; (2) excess growth hormone (GH; tumor-bearing); (3) streptozotocin-induced diabetic; (4) cortisol-treated, and (5) insulin-treated animals. Blood samples were collected from the animal models and hepatocytes were prepared and used for glucagon-binding studies and studies of total glucose production, gluconeogenesis and glycogen determinations. Glucagon binding was elevated in GH-tumor-bearing and cortisol-treated hepatocytes but lower in hepatocytes from diabetic animals. Basal total glucose production wash higher in hepatocytes from diabetic rats but not changed in hepatocytes from GH-tumor-bearing, insulin-treated or cortisol-treated animals. Glucagon significantly stimulated total glucose production in hepatocytes from control, insulin-treated and cortisol-treated but not diabetic and GH tumor models. Gluconeogenesis as evaluated by alanine conversion to glucose was significantly increased in hepatocytes from diabetic and cortisol-treated animals and was significantly lower in hepatocytes from GH-tumor-bearing animals. Glucagon failed to significantly stimulate gluconeogenesis in hepatocytes from diabetic and tumor-bearing animals. Hepatic glycogen content was significantly decreased in diabetic and GH-tumor-bearing animals but not changed in insulin-treated and cortisol-treated animals. We conclude that increased glucagon binding was not always correlated with an increase in glucagon-stimulated glycogenolysis, gluconeogenesis or increased sensitivity to glucagon. Persistent hyperinsulinism may effectively suppress glucagon- or cortisol-stimulated pathways.