Abstract

At concentrations around 10(-9) M or higher, glucagon increases cardiac contractility by activating adenylate cyclase/cyclic adenosine monophosphate (AC/cAMP). However, blood levels in vivo, in rats or humans, rarely exceed 10(-10) M. We investigated whether physiological concentrations of glucagon, not sufficient to increase contractility or ventricular cAMP levels, can influence fuel metabolism in perfused working rat hearts. Two distinct glucagon dose-response curves emerged. One was an expected increase in left ventricular pressure (LVP) occurring between 10(-9.5) and 10(-8) M. The elevations in both LVP and ventricular cAMP levels produced by the maximal concentration (10(-8) M) were blocked by the AC inhibitor NKY80 (20 microM). The other curve, generated at much lower glucagon concentrations and overlapping normal blood levels (10(-11) to 10(-10) M), consisted of a dose-dependent and marked stimulation of glycolysis with no change in LVP. In addition to stimulating glycolysis, glucagon (10(-10) M) also increased glucose oxidation and suppressed palmitate oxidation, mimicking known effects of insulin, without altering ventricular cAMP levels. Elevations in glycolytic flux produced by either glucagon (10(-10) M) or insulin (4 x 10(-10) M) were abolished by the phosphoinositide 3-kinase (PI3K) inhibitor LY-294002 (10 microM) but not significantly affected by NKY80. Glucagon also, like insulin, enhanced the phosphorylation of Akt/PKB, a downstream target of PI3K, and these effects were also abolished by LY-294002. The results are consistent with the hypothesis that physiological levels of glucagon produce insulin-like increases in cardiac glucose utilization in vivo through activation of PI3K and not AC/cAMP.

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