The effect of glucagon administration on protein synthesis in skeletal muscles, heart and liver in vivo

Abstract

Infusion of glucagon (0.5 mg/h per 100 g body wt.) into fed rats for 6 h inhibited protein synthesis in skeletal muscle, but not in heart. The order of sensitivity of three muscles was plantaris greater than gastrocnemius greater than soleus. Treatment with glucagon for periods of 1 h or less had no effect. Liver protein synthesis was inhibited by glucagon treatment for 10 min, but stimulated after 6 h. The effect of glucagon on muscle was not secondary to impaired food absorption or to depletion of amino acids by increased gluconeogenesis, since the inhibition of protein synthesis was observed in postabsorptive and amino acid-infused rats. The failure of glucagon to inhibit muscle protein synthesis after 1 h may have been caused by the increase in plasma insulin that occurred at this time, since an inhibition was detected in insulin-treated diabetic rats. The lowest infusion rate that gave a significant decrease in muscle protein synthesis was 6 micrograms/h per 100 g body wt., despite a small increase in plasma insulin. This gave plasma glucagon concentrations in the high pathophysiological range, suggesting that glucagon may be significant in the pathogenesis of muscle wasting in metabolic stresses such as diabetes and starvation.