Exercise-induced galanin release facilitated GLUT4 translocation in adipocytes of type 2 diabetic rats.

Although galanin has been shown to increase insulin sensitivity in skeletal muscle of rats, there is no literature available about the effect of galanin on Glucose Transporter 4 (GLUT4) translocation from intracellular membrane pools to plasma membranes in adipocytes of type 2 diabetic rats. In the present study M35, a galanin antagonist was used to elucidate whether exercise-induced galanin release increased GLUT4 translocation in adipocytes of streptozotocin-induced diabetic rats. The present findings showed that plasma galanin levels after swimming training in all four trained groups were higher compared with each sedentary control. M35 treatment had an inhibitory effect on glucose infusion rates in the euglycemic-hyperinsulinemic clamp test and GLUT4 mRNA expression levels in adipocytes. Moreover, M35 treatment reduced GLUT4 concentration in both plasma membranes and total cell membranes. The ratios of GLUT4 contents in plasma membranes to total cell membranes in four drug groups were lower compared with each control. These data demonstrate a beneficial role of endogenous galanin to transfer GLUT4 from internal stores to plasma membranes in adipocytes of type 2 diabetic rats. Galanin plays a significant role in regulation of glucose metabolic homeostasis and is an important hormone relative to diabetes.

Galanin antagonist increases insulin resistance by reducing glucose transporter 4 effect in adipocytes of rats.

Seeing that galanin increases animal body weight on the conditions of inhibiting insulin secretion and animals with metabolic disorder of galanin easily suffer from diabetes, we postulate that endogenous galanin is necessary to reduce insulin resistance in adipocytes. To test this hypothesis, we compared four groups of rats to examine whether an increase in galanin secretion stimulated by swimming may reduce insulin resistance. The rats from sedentary and trained drug groups were injected by M35, a galanin antagonist. The rats from trained control and trained drug groups swam after each injection for four weeks. We found that exercise significantly elevated plasma galanin contents and glucose transporter 4 (GLUT4) mRNA levels in adipocytes. Meanwhile, M35 treatment reduced GLUT4 and GLUT4 mRNA levels, and glucose infusing rates in euglycemic-hyperinsulinemic clamp tests. The ratios of GLUT4 concentrations at plasma membranes to total cell membranes in both drug groups were lower compared with each control group, respectively. These observations suggest that endogenous galanin reduces insulin resistance by increasing GLUT4 contents and promoting GLUT4 transportation from intracellular membranes to plasma membranes in adipocytes. Galanin is an important hormone to reduce insulin resistance in rats.

Beneficial effect of galanin on insulin sensitivity in muscle of type 2 diabetic rats.

The aim of this study was to determine whether enhanced galanin (GAL) release induced by exercise would elevate insulin sensitivity and glucose transporter 4 (GLUT4) concentration in the plasma membranes of skeletal muscle in type 2 diabetic rats. We used M35, a GAL antagonist to antagonize the GAL function and swimming training for four weeks to increase GAL release of rats. The blood samples were analyzed for GAL and insulin concentration. The euglycemic-hyperinsulinemic clamp test was conducted for an index of glucose infusion rates. Additionally, skeletal muscle was collected and processed for GLUT4 mRNA level and GLUT4 concentration. The present findings showed that plasma GAL levels after swimming training in all three trained groups were higher compared with each sedentary control and each preswimming level. The insulin levels after swimming in both M35 treatment groups were elevated compared with each diabetic control and each pretraining level. Moreover, M35 treatment reduced glucose infusion rates compared with each diabetic control, but swimming enhanced the rates in all trained groups compared with each sedentary control. Furthermore, M35 treatment reduced GLUT4 concentration and GLUT4 mRNA levels compared with each diabetic control. The ratio of GLUT4 contents in plasma membranes to total cell membranes in both drug groups were lower compared with each diabetic control. These results suggest that endogenous GAL may enhance GLUT4 contents and promote GLUT4 transportation from intracellular membrane pools to plasma membranes. GAL is an important hormone to regulate insulin sensitivity in skeletal muscle from type 2 diabetic rats.