Mechanisms regulating skeletal muscle glucose metabolism in sepsis

Abstract

Carbohydrate dyshomeostasis is a characteristic feature of sepsis. Sepsis elevates glucose uptake and cellular lactate levels in muscle. The mechanisms responsible for these alterations are unknown. We examined the effects of a chronic, intra-abdominal septic abscess upon glucose uptake, the expression of the insulin receptor, glucose transporter proteins (Glut-1 and Glut-4) and mRNA, and the content of glycolytic intermediates in muscle from the hindlimb. Sepsis caused a 67% increase in glucose uptake compared with control. A differential expression of the Glut-1 and Glut-4 transporter proteins in skeletal muscle of septic rats was observed. Sepsis increased the expression of Glut-1 protein 1.7-fold. The increased Glut-1 protein correlated with a similar increase in the relative abundance of Glut-1 mRNA. In contrast, sepsis did not alter the amount of Glut-4 protein and mRNA or insulin receptor protein. The tissue content of glucose-6-phosphate was increased approximately twofold compared with control. The increase in the glucose-6-phosphate content was not associated with increased glycogen deposition in skeletal muscle of septic animals. Analysis of the glycolytic intermediates showed that only the lactate content of muscles from septic rats was significantly elevated in sepsis. The results are consistent with the hypothesis that sepsis enhances glucose uptake secondary to increased Glut-1 expression. Furthermore, once transported, glucose may be preferentially metabolized to lactate.