Chronic sympathetic innervation of islets in transgenic mice results in differential desensitization of alpha-adrenergic inhibition of insulin secretion

Advances in Experimental Medicine and Biology
G M GrodskyR H Edwards

Abstract

The effects of chronic sympathetic hyperinnervation on pancreatic beta-cell insulin secretion were investigated utilizing the in vitro perfused pancreas from transgenic mice. These mice exhibit islet hyperinnervation of sympathetic neurons resulting from overexpression of nerve growth factor in their beta-cells (1). The goal was to determine whether sympathetic hyperinnervation increased classic alpha-adrenergic inhibition of beta-cell insulin secretion or, in contrast, down-regulated beta-cell sensitivity to adrenergic input resulting in enhanced insulin secretion. Both fasting and fed blood sugars and pancreatic insulin content were normal in the transgenics. Response of the transgenic perfused pancreas to low glucose (7 mM) was primarily first phase and normal whereas high glucose (22 mM) caused enhanced, rather than reduced, insulin secretion of both first and second phases. The alpha-antagonist, phentolamine, caused a six-fold increase in glucose-stimulated insulin secretion from the control pancreas, an effect that was blunted for the transgenic pancreas. A similarly blunted response to phentolamine occurred when this agent was superimposed on a combined glucose-forskolin stimulus. (The positive effect on insulin secretio...Continue Reading

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