Experimental models of diabetes mellitus types 1 and 2 in rats: Regulation of activity of glycogen synthase by peptides of the insulin superfamily and by epidermal growth factor in skeletal muscles

The regulatory effect of peptides of the insulin superfamily-insulin, insulin-like growth factor (IGF-1), and relaxin, as well as of epidermal growth factor (EGF) on activity of glycogen synthase (GS) in rat skeletal muscles was studied in normal state and in experimental diabetes mellitus types 1 and 2 (DM1, DM2). Normally, the peptides stimulated GS activity to the maximum at a concentration of 10(-8) M in vitro. The efficiency ranking of the peptide action was as follows: insulin > IGF-1 > relaxin. In DM1 the basal GS activity did not change, while the effect of insulin in vitro decreased more sharply on the 30th day of diabetes as compared to IGF-1 and relaxin, i.e. the efficiency ranking was as follows: IGF-1 = relaxin > insulin. Administration of insulin in vivo did not recover the sensitivity of the enzyme to the action of the hormone in DM1. In DM2, GS activity (both in total and in the active form) decreased while the stimulatory effect of the peptides and EGF on the enzyme was absent. Insulin administered in vivo did not lead to the recovery of the enzyme activity. We conclude that it is insulin resistance pronounced in DM2 that mostly affects the basal GS activity as well as the enzyme regulation by peptides of insulin type and EGF in rat skeletal muscles, while insulin deficiency in DM1 is of lesser importance.