Abnormal Secretion of Insulin and Glucagon by the In Vitro Perfused Pancreas of the Genetically Diabetic Chinese Hamster

Abstract: Therefore, to characterize pancreatic islet function, dynamic insulin and glucagon release from normal and nonketotic diabetic hamster pancreases in response to glucose (300 mg/100 ml) and theophylline (10 mM), infused singly and together, was studied in vitro.20-min glucose infusions of normal hamster pancreases caused biphasic insulin release, consisting of a rapid first peak and a gradually rising second phase, similar to that reported for man in vivo. Both phases were significantly reduced in the diabetic … Show more

“…In the normal hamsters, glucose plus arginine caused biphasic patterns of insulin and glucagon release (insulin second phase constant, glucagon second phase falling), whereas theophylline gave essentially constant second phase insulin and glucagon release [3,7]. Potassium caused rapid release of insulin and glucagon in the first phases, with little insulin and no glucagon in the second phases [7].…”

“…The diabetics' subnormal insulin responses to glucose plus arginine and to potassium could be due to subnormal islet insulin synthesis [9] and content [3,10,Gerritsen,personal communication]. However, because theophylline caused normal or greater than normal insulin release, the effectiveness of cyclic AMP and the process of exocytosis appear to be normal, and thus insulin release, at least in response to theophylline, appears to be unrelated to pancreatic content.…”

“…However, because theophylline caused normal or greater than normal insulin release, the effectiveness of cyclic AMP and the process of exocytosis appear to be normal, and thus insulin release, at least in response to theophylline, appears to be unrelated to pancreatic content. Alternatively, the excess glycogen seen in the diabetic B cell [11,12] may act as an intracellular source of glucose intermediates, and these metabolites may act synergistically with theophylline [3] to promote insulin release in the diabetic.…”

“…Pancreatic perfusion was performed in vitro as described previously [3,4] except that the total perfusion flow rate was only 1.3 ml/ rain, the animals were not fasted before perfusion, and glucagon was assayed using Unger 30K or 04A antiserum. These two antisera gave identical results in our assays of glucagon release from normal rat pancreas in vitro.…”

“…Previous studies [3,4] have shown that the perfused pancreases of diabetic hamsters have subnormal insulin and excessive glucagon responses to glucose stimulation, excessive glucagon responses to arginine, but normal responses to theophylline. However, those studies did not compare the differences among specific diabetic sublines nor between males and females.…”

Insulin and glucagon release in the diabetic Chinese hamster: Differences among inbred sublines

“…In the normal hamsters, glucose plus arginine caused biphasic patterns of insulin and glucagon release (insulin second phase constant, glucagon second phase falling), whereas theophylline gave essentially constant second phase insulin and glucagon release [3,7]. Potassium caused rapid release of insulin and glucagon in the first phases, with little insulin and no glucagon in the second phases [7].…”

“…The diabetics' subnormal insulin responses to glucose plus arginine and to potassium could be due to subnormal islet insulin synthesis [9] and content [3,10,Gerritsen,personal communication]. However, because theophylline caused normal or greater than normal insulin release, the effectiveness of cyclic AMP and the process of exocytosis appear to be normal, and thus insulin release, at least in response to theophylline, appears to be unrelated to pancreatic content.…”

“…However, because theophylline caused normal or greater than normal insulin release, the effectiveness of cyclic AMP and the process of exocytosis appear to be normal, and thus insulin release, at least in response to theophylline, appears to be unrelated to pancreatic content. Alternatively, the excess glycogen seen in the diabetic B cell [11,12] may act as an intracellular source of glucose intermediates, and these metabolites may act synergistically with theophylline [3] to promote insulin release in the diabetic.…”

“…Pancreatic perfusion was performed in vitro as described previously [3,4] except that the total perfusion flow rate was only 1.3 ml/ rain, the animals were not fasted before perfusion, and glucagon was assayed using Unger 30K or 04A antiserum. These two antisera gave identical results in our assays of glucagon release from normal rat pancreas in vitro.…”

“…Previous studies [3,4] have shown that the perfused pancreases of diabetic hamsters have subnormal insulin and excessive glucagon responses to glucose stimulation, excessive glucagon responses to arginine, but normal responses to theophylline. However, those studies did not compare the differences among specific diabetic sublines nor between males and females.…”

Insulin and glucagon release in the diabetic Chinese hamster: Differences among inbred sublines

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