EFFECTS OF ISLET AMYLOID POLYPEPTIDE ON HEPATIC INSULIN RESISTANCE AND GLUCOSE-PRODUCTION IN THE ISOLATED PERFUSED-RAT-LIVER

The impact of (pancreatic) islet amyloid polypeptide on glucose metabolism and insulin sensitivity was examined in isolated rat livers perfused in a non-recirculating system. Continuous infusion of 10(-7) mol/l islet amyloid polypeptide affected neither basal nor glucagon (10(-9) mol/l)-stimulated glucose output by livers from fed rats, but it did increase the hepatic cyclic AMP release within 44 min (7.91 +/- 12.07 vs control: 0.07 +/- 0.03 pmol.100 g body weight-1). The effect of the peptide on the ability of insulin to inhibit glucagon-induced hepatic glycogenolysis was measured in three experimental groups (n = 6). As expected glucagon (7 x 10(-11) mol/l) increased integral hepatic glucose release within 84 min (763.4 +/- 161.7 vs -25.7 +/- 73.2-mu-mol.100 g body weight-1 in the control group, p < 0.001), while insulin (100 mU/l) decreased the glucagon-stimulated glucose production (395.2 +/- 180.0-mu-mol.100 g body weight-1, p < 0.01). Simultaneous infusion of 10(-7) mol/l islet amyloid polypeptide however, was not able to reverse insulin-dependent inhibition of glucagon-stimulated hepatic glucose output (370.0 +/- 102.5-mu-mol.100 g body weight-1, NS) or to enhance lactate-induced gluconeogenesis of livers from 24 h fasted rats (n = 8). The glucose production stimulated by 10(-9) mol/l glucagon was slightly greater in islet amyloid polypeptide-pre-treated livers than in a control group without addition of islet amyloid polypeptide (5 min: 3.60 +/- 3.36 vs 1.67 +/- 1.28-mu-mol.min-1.100 g body weight-1). These results suggest that islet amyloid polypeptide neither directly affects hepatic glycogenolysis nor causes insulin resistance to hormone-sensitive glucose production, but may increase the size of the hepatic glycogen pool by enhancing gluconeogenesis.