Optimal conditions for studies of amino acid incorporation in vitro by isolated skeletal muscle mitochondria

Optimal conditions for amino acid incorporation into protein in vitro by isolated skeletal muscle mitochondria were established. Maximum incorporation rates were obtained when atractylate and glutamate were added to the incubation medium in the absence of any exogenous adenine nucleotides. Under these conditions, the rate of amino acid incorporation was more than 5-fold greater than that observed with glutamate and ADP and nearly 12-fold greater than that observed with ATP and an ATP-regenerating system consisting of phosphoenolpyruvate and pyruvate kinase. The optimal concentrations of adenine nucleotides, glutamate, cofactors and the substrate leucine were determined for all three energy-providing systems. The inhibitors of protein synthesis, puromycin and chloramphenicol, completely blocked amino acid incorporation by isolated skeletal muscle in mitochondria, while cycloheximide had no effect. Analysis of the labeled mitochondrial proteins by sodium dodecylsulfate polyacrylamide gel electrophoresis revealed five labeled bands of molecular weights ranging from 38,000 to 10,000.Amino acid incorporation by skeletal muscle mitochondria isolated from diabetic rats was decreased over 60% as compared to mitochondria from controls when measured in the presence of glutamate and atractylate, ADP and glutamate or the ATP regenerating system. By contrast, amino acid incorporation by liver mitochondria isolated from diabetic rats did not differ significantly from control values when measured with four different energy sources.