Vasodilator Response to Systemic But Not to Local Hyperinsulinemia in the Human Forearm

Abstract

Abstract —Insulin-mediated vasodilation has been proposed as an important determinant of whole-body insulin-stimulated glucose disposal. However, it is not clear whether the vasodilator effect of insulin results from a direct action of the hormone or whether alternative mechanisms are involved. To better characterize the mechanism of insulin-mediated vasorelaxation, we compared forearm blood flow (FBF) responses to local (intra-arterial) and systemic (intravenous, euglycemic clamp) hyperinsulinemia in 10 healthy lean subjects using venous occlusion plethysmography. In addition, we assessed the effect of nitric oxide (NO) synthase inhibition by N ^G -monomethyl- l -arginine (L-NMMA) on the vasodilator and metabolic responses to hyperinsulinemia. Similar forearm concentrations of insulin were achieved during local and systemic infusion (231±39 versus 265±22 μU/mL; P =0.54). Of note, FBF did not change significantly in response to local hyperinsulinemia (from 2.6±0.3 to 2.4±0.3 mL · min ⁻¹ · dL ⁻¹ ; P =0.50). In contrast, systemic hyperinsulinemia caused a 52% increase in FBF (from 2.5±0.2 to 3.8±0.5 mL · min ⁻¹ · dL ⁻¹ ; P −1 · dL ⁻¹ ; P =0.004). We conclude that systemic, but not local, hyperinsulinemia induces vasodilation in the forearm. Our findings suggest that insulin-mediated vasodilation is not due solely to a direct stimulatory effect of insulin but involves additional mechanisms activated only during systemic hyperinsulinemia.