Effect of Insulin on Amino Acid Uptake and Protein Turnover in Skeletal Muscle From Septic Rats

We investigated the effect of different concentrations of insulin (0, 10, 1 X 10(2), 1 X 10(3), 1 X 10(4), and 1 X 10(5) mU/L 0, 70, 7 X 10(2), 7 X 10(3), 7 X 10(4), and 7 X 10(5) pmol/L) on amino acid (alpha-aminoisobutyric acid) uptake and protein synthesis and breakdown in incubated extensor digitorum longus (EDL) and soleus muscles of rats. We studied three groups: untreated, fed rats; sham-operated rats; and septic rats. Sepsis was induced by cecal ligation and puncture. The alpha-aminoisobutyric acid uptake was increased by insulin in all three groups. Protein synthesis was maximally stimulated by 30% to 40% by 1 X 10(2) mU/L (7 X 10(2) pmol/L) of insulin in all three groups. Protein degradation in soleus muscle was not affected by insulin. In EDL muscles from untreated and sham-operated rats, protein breakdown was reduced by 15% to 20% by 1 X 10(2) mU/L (7 X 10(2) pmol/L) of insulin. In contrast, protein breakdown was not inhibited by insulin in septic EDL muscle until the concentration of the hormone was increased to 1 X 10(4) mU/L (7 X 10(4) pmol/L), at which concentration the hormonal effect was less than half that in nonseptic muscle. The results suggest a postreceptor insulin resistance of protein breakdown in septic muscle, while the response to the hormone of amino acid transport and protein synthesis was not altered in sepsis.