Insulin-like effects of a physiologic concentration of carnitine on cardiac metabolism.

Abstract

Pharmacologic (millimolar) levels of carnitine have been reported to increase myocardial glucose oxidation, but whether physiologically relevant concentrations of carnitine affect cardiac metabolism is not known. We employed the isolated, perfused rat heart to compare the effects of physiologic levels of carnitine (50 microM) and insulin (75 mU/l [0.5 nM]) on the following metabolic processes: (1) glycolysis (release of 3H2O from 5-3H-glucose); (2) oxidation of glucose and pyruvate (production of 14CO2 from U-14C-glucose, 1-14C-glucose, 3,4-14C-glucose, 1-14C-pyruvate, and 2-14C-pyruvate); and (3) oxidation of palmitate (release of 3H2O from 9,10-3H-palmitate). We found that addition of carnitine (50 microM) to a perfusate containing both glucose (10 mM) and palmitate (0.5 mM) stimulated glycolytic flux by 20%, nearly doubled the rate of glucose oxidation, and inhibited palmitate oxidation by 20%. These actions of carnitine were uniformly similar to those of insulin. When carnitine and insulin were administered together, their effects on the oxidation of glucose and palmitate, but not on glycolysis, were additive. When pyruvate (1 mM) was substituted for glucose, neither carnitine nor insulin influenced the rate of oxidation of pyruvate or palmitate. In combination, however, carnitine and insulin sharply suppressed pyruvate oxidation (75%) and doubled the rate of palmitate oxidation. None of the responses to carnitine or insulin was affected by varying the isotopic labeling of glucose or pyruvate. The results show that carnitine, at normal blood levels, exerts insulin-like effects on myocardial fuel utilization. They also suggest that plasma carnitine in vivo may interact with insulin both additively and permissively on the metabolism of carbohydrates and fatty acids.