In the rat pancreas, somatostatin tonically inhibits glucagon secretion and is required for glucose-induced inhibition of glucagon secretion.

Abstract

It is debated whether the inhibition of glucagon secretion by glucose results from direct effects of glucose on the α-cell (intrinsic regulation) or by paracrine effects exerted by beta- or delta-cell products. To study this in a more physiological model than isolated islets, we perfused isolated rat pancreases and measured glucagon, insulin and somatostatin secretion in response to graded increases in perfusate glucose concentration (from 3.5 to 4, 5, 6, 7, 8, 10, 12mmol/L) as well as glucagon responses to blockage/activation of insulin/GABA/somatostatin signalling with or without addition of glucose. Glucagon secretion was reduced by about 50% (compared to baseline secretion at 3.5mmol/L) within minutes after increasing glucose from 4 to 5mmol/L (P<.01, n=13). Insulin secretion was increased minimally, but significantly, compared to baseline (3.5mmol/L) at 4mmol/L, whereas somatostatin secretion was not significantly increased from baseline until 7mmol/L. Hereafter secretion of both increased gradually up to 12mmol/L glucose. Neither recombinant insulin (1µmol/L), GABA (300µmol/L) or the insulin-receptor antagonist S961 (at 1µmol/L) affected basal (3.5mmol/L) or glucose-induced (5.0mmol/L) attenuation of glucagon secretion (n=7-8). Somatostatin-14 attenuated glucagon secretion by~95%, and blockage of somatostatin-receptor (SSTR)-2 or combined blockage of SSTR-2, -3 and -5 by specific antagonists increased glucagon output (at 3.5mmol/L glucose) and prevented glucose-induced (from 3.5 to 5.0mmol/L) suppression of secretion. Somatostatin is a powerful and tonic inhibitor of glucagon secretion from the rat pancreas and is required for glucose to inhibit glucagon secretion.