Role of free fatty acids and glucagon in the peripheral effect of insulin on glucose production in humans.

We have shown previously that the greater suppression of endogenous glucose production (GP) with equimolar peripheral vs. portal insulin cannot be detected or is minimally reversed when the insulin-induced suppression of either free fatty acids (FFA) or glucagon alone is prevented. The present experiments were designed to minimize the insulin suppression of both glucagon and FFA in an attempt to further examine the mechanism of insulin's peripheral effect on GP. In nine healthy men, we investigated the effect of limiting the insulin suppression of both FFA and glucagon by infusing heparin (250 U/h), Intralipid 10% (25 ml/h), and glucagon (0.65 ng . kg-1 . min-1) during 1) portal (n = 9), 2) equimolar peripheral (n = 9), and 3) half-dose peripheral insulin delivery (n = 4) by use of our previously published tolbutamide infusion method, with calculation and matching of insulin secretion rate. GP decreased by 57.2 +/- 2. 6% with portal, 39.0 +/- 4.1% with equimolar peripheral, and 31.5 +/- 2.7% with half-dose peripheral insulin delivery (P < 0.001 for portal vs. peripheral and P < 0.001 for portal vs. half-dose peripheral). In contrast, in six control subjects in whom glucagon and FFA were not replaced, GP decreased by 62.6 +/- 2.4% with portal (n = 6), 75.7 +/- 3.0% with peripheral (n = 6), and 56.3 +/- 3.0% with half-dose peripheral (n = 4) insulin delivery (P < 0.01 for portal vs. peripheral and P = not significant for portal vs. half-dose peripheral). In summary, the greater suppression of GP with equimolar peripheral vs. portal insulin is eliminated and markedly reversed if the acute insulin-induced suppression of both plasma FFA and glucagon is minimized. This suggests that the insulin-induced suppression of glucagon and FFA has additive or cooperative effects in mediating the acute extrahepatic effect of insulin on GP.