Influence of somatostatin on glucagon- and epinephrine-stimulated hepatic glucose output in the dog.

Abstract

Glucose kinetics were measured using [3-3H]glucose in conscious dogs during the infusion of: 1) glucagon alone; 2) glucagon plus somatostatin with insulin replacement; 3) epinephrine alone; and 4) epinephrine plus somatostatin with insulin and glucagon replacement. Infusion of glucagon alone resulted in a 10-15 mg/dl rise in plasma glucose and a transient 45% rise in glucose production. When somatostatin and insulin were added, a four- to fivefold greater rise in plasma glucose and glucose production was observed. Glucagon levels were comparable to those achieved with infusion of glucagon alone, whereas peripheral insulin levels increased three- to fourfold above baseline, suggesting adequate replacement of preinfusion portal insulin levels. Infusion of epinephrine alone produced a 40% rise in plasma glucose and a 100% rise in glucose production. When somatostatin, insulin, and glucagon were added to epinephrine, the rise in glucose production was reduced in 65% despite replacement of glucagon levels and presumably mild portal insulin deficiency. These findings suggest that somatostatin: 1) potentiates the stimulatory effect of physiologic hyperglucagonemia on glucose production independent of insulin availability and 2) blunts the stimulatory effect of physiologic increments of epinephrine independent of glucagon availability.