Comparing effects of leptin and insulin on glucose metabolism in skeletal muscle: evidence for an effect of leptin on glucose uptake and decarboxylation.

OBJECTIVE

To investigate the effects of leptin and the combination of insulin and leptin on glucose metabolism in incubated rat soleus muscle.

ANIMALS

Male lean albino rats (50-70 g) of the Wistar strain were used in all experiments.

MEASUREMENTS

2-Deoxy-D-[3H]-glucose (2-DG) uptake, glycogen synthesis, lactate synthesis, glucose and pyruvate decarboxylation.

RESULTS

Leptin (1, 10 and 100 nM), increased 2-Deoxyglucose uptake from 4.07+/-0.23 micromol/h(-1)/g(-1) (basal) to 5.88+/-0.29 micromol/h(-1)/g(-1) (100 nM) (P < 0.05); however, leptin did not potentiate the effect of either physiological (100 microU/ml) or supra-physiological (10000 microU/ml) insulin concentrations on glucose uptake. Glycogen synthesis rose almost 2-fold in the presence of supra-physiological leptin concentrations (100 nM). The combination of insulin and leptin did not present any additional effect on glycogen synthesis beyond that caused by insulin. Compared to the control group, the decarboxylation of [U-14C] D-glucose increased 75%, 246% and 304% (P < 0.05) in the presence of 1, 10 and 100nM leptin, respectively. When leptin (100 nM) was combined with insulin in the incubation medium, the 14CO2 production rose almost 4-fold (397%) (P < 0.05) and more than 5-fold (527%) (P < 0.05) for the 100 microU/ml and 10000 microU/ml insulin concentrations, respectively. In the presence of leptin (100 nM), the decarboxylation of [1-14C]- and [2-14C]-pyruvate in incubated muscles rose 89% and 49%, respectively, indicating that both pyruvate dehydrogenase and Krebs cycle are activated by leptin.

CONCLUSION

These data demonstrate that, in soleus muscle, leptin per se exerts a direct and acute insulin-like effect, stimulating glucose uptake, glycogen synthesis, lactate formation and glucose oxidation.