Glucagon binding and adenylate cyclase activity in liver membranes from untreated and insulin-treated diabetic rats

To investigate the role of hepatic glucagon receptors in the hypersensitivity to glucagon observed in insulin-deprived diabetics, liver plasma membranes were prepared from control rats and from streptozotocin-induced diabetic rats some of whom were treated with high-dose and low-dose insulin. The untreated diabetic animals exhibited hyperglycemia, weight loss, hypoinsulinemia, and hyperglucagonemia. High-dose insulin treatment (2 U Protamine-zinc-insulin/100 g per day) resulted in normoglycemia, normal weight gain, mild hyperinsulinemia, and return of glucagon levels toward base line. The low-dose (1 U protamine-zinc-insulin/100 g per day) insulin-treated diabetic group demonstrated chemical changes intermediate between the untreated and the high-dose insulin-treated animals. In liver plasma membranes from the untreated diabetic rats, specific binding of (125)I-glucagon was increased by 95%. Analysis of binding data suggested that the changes in glucagon binding were a consequence of alterations in binding capacity rather than changes in binding affinity. Furthermore, in the untreated diabetic rats, both basal and glucagon (2 muM)-stimulated adenylate cyclase activity were twofold higher than in controls. In the high-dose insulin-treated diabetic rats, glucagon binding and basal and glucagon-stimulated adenylate cyclase activity were normalized to control values, whereas low-dose insulin treatment resulted in changes intermediate between control and untreated diabetic rats. In contrast to glucagon-stimulated adenylate cyclase activity, fluoride-stimulated adenylate cyclase activity was similar in all groups of rats. Liver plasma membranes from untreated and insulin-treated diabetic animals degraded (125)I-glucagon to the same extent as control rats. The specific binding of (125)I-insulin in the untreated diabetic animals was 40% higher than in control rats. In low-dose insulin-treated diabetic rats, insulin binding was not significantly different from that of control rats, whereas in the high-dose insulin-treated group in whom plasma insulin was 70% above control levels, insulin binding was 30% lower than in control rats. These findings suggest that alterations in glucagon receptors may contribute to the augmented glycemic and ketonemic response to glucagon observed in insulin-deprived diabetics.