Akio Kaneto

Effect of bombesin infused intrapancreatically on glucagon and insulin secretion

Synthetic bombesin was infused at a dose of 20 pmoles/kg/min for 10 min into the cranial pancreaticoduodenal artery of anesthetized dogs. Plasma immunoreactive glucagon concentrations in the cranial pancreaticoduodenal vein as well as in the femoral artery were concurrently and slowly elevated. However, the net release of glucagon from the pancreas did not increase significantly during infusion of bombesin. Plasma immunoreactive insulin concentrations in the pancreatic vein were transiently raised, and a delayed rise was noted in arterial plasma IRI. Net release of insulin was significantly augmented during infusion of the tetradecapeptide. Plasma glucose levels did not change after bombesin. These results indicate that the gastrointestinal tetradecapeptide may stimulate secretion of both insulin and gut glucagonlike immunoreactivity in the dog.

Effect of vasoactive intestinal polypeptide infused intrapancreatically on glucagon and insulin secretion

Synthetic vasoactive intestinal polypeptide (VIP) was infused at a dose of 50 ng/kg/min for 10 min into the cranial pancreaticoduodenal artery in anesthetized dogs. Both mean blood flow and plasma glucagon concentration in the cranial pancreaticoduodenal vein were significantly enhanced during the infusion, indicating a great augmentation in glucagon output. The pancreatic venous plasma concentration of insulin was not significantly raised, but its output increased during the infusion, again due to the increase in plasma flow. Plasma concentration of glucagon in the femoral artery was not significantly augmented, whereas that of insulin was enhanced during VIP infusion. Mean arterial plasma glucose levels rose gradually during the infusion. Intrapancreatic pretreatment with propranolol failed to exert any significant inhibiting effect upon the VIP-induced enhancement in plasma glucose, pancreatic venous blood flow, or bihormonal output. These results suggest that the vasoactive polypeptide of intestinal origin may regulate the function of the endocrine pancreas and that this effect may not be mediated mainly via the beta-adrenergic receptor system.

Effect of phentolamine on the somatostatin-induced inhibition of glucagon and insulin secretion

Synthetic cyclic somatostatin was infused into either the cranial pancreaticoduodenal artery or the femoral vein of anesthetized dogs with or without previous administration of phentolamine. Somatostatin infused into the pancreatic artery at a dose of 50 ng/kg/min for 10 min caused significant decreases in blood flow and plasma basal concentrations of both glucagon and insulin in the cranial pancreaticoduodenal vein, resulting in a profound decline of bihormonal output during the infusion. Arterial plasma glucose was not reduced during the administration of somatostatin in the pancreatic artery. These somatostatin-induced decreases failed to be eliminated by a 0.2 mg/kg injection of phentolamine into the femoral vein followed by a 9-min infusion of this alpha-adrenergic blocker (0.02 mg/kg/min) into the pancreatic artery immediately prior to the somatostatin administration. An inhibition of glucagon and insulin output and a fall of plasma glucose caused by somatostatin (1.7 microgram/min) infused into the femoral vein for 30 min also were not abolished by a prolonged and simultaneous infusion of phentolamine (0.2 mg/min) into the femoral vein over a period of 2 hr. These results indicate that alpha-adrenergic receptor mechanisms do not play a major role in the inhibition of islet glucagon and insulin secretion by somatostatin.

Proceedings of the 64th annual meeting from May 22 to 24, 1978—Sapporo, Japan

The Ist presumptive evidence that gastrointestinal hormones influence growth is found in a number of studies describing the long term effects of antrectomy on the remaining oxyntic gland mucosa. And, it is reported that gastrin stimulates protein and DNA synthesis, this effect is specific to certain tissue of the digestive tract, and it is dependent of secretory phenomena. From this experiment, it is concluded that the effect of gastrin is mediated by cyclic GMP and in gastric atrophy, the responses of cyclic GMP and protein synthesis to gastrin is diminished.