EFFECTS OF C-1-SUBSTITUTED GLUCOSE ANALOG ON THE ACTIVATION STATES OF GLYCOGEN-SYNTHASE AND GLYCOGEN-PHOSPHORYLASE IN RAT HEPATOCYTES

A series of glucose-analogue inhibitors of glycogen phosphorylase b (GPb) has been designed, synthesized and investigated in crystallographic binding and kinetic studies. The aim is to produce epsilon compound that may exert more effective control over glycogen metabolism than the parent glucose molecule and which could alleviate hyperglycaemia in Type-II diabetes. N-Acetyl-beta-D-glucopyranosylamine (1-GlcNAc) has a K(b)oth enzymes were stronger than those of glucose, with 0.8 mM 1-GlcNAc being equipotent with 50 mM glucose. At 1 mM, 1-GlcNAc enhanced the dephosphorylation of exogenous GPa by liver extracts (600%) and by muscle extracts (75%). This represents an approximately 500-fold improvement on glucosei for muscle GPb in elude extracts of 30 mu M, 367-fold lower than that of beta-D-glucose [Board, Hadwen and Johnson (1995) fur. J, Biochem. 228, 753-761]. In the current work, the effects of 1-GlcNAc on the activation states of GP and glycogen synthase (GS) in cell-free preparations and in isolated hepatocytes are reported, In gel-filtered er;tracts of liver, which lack ATP for kinase activity, 1-GlcNAc produced a rapid and time-dependent inactivation of GP with;I subsequent activation of GS. Effects of 1-GlcNAc on for the liver activity and 40-fold for the muscle activity. In whole hepatocytes, 1-GlcNAc showed an approximately 5-fold enhancement of glucose effects for GP inactivation but failed to elicit activation of GS. Glucose-induced activation of GS in whole hepatocytes was reversed by subsequent addition of 1-GlcNAc. However, when GS activation was achieved via the adenosine analogue and kinase inhibitor, 5'-iodotubercidin (ITU), subsequent addition of 1-GlcNAc allowed continued activation of GS. Phosphorylation of 1-GlcNAc in rat hepatocytes was established using radiolabelled material. The rate of phosphorylation was 1.60 nmol/min per 10(6) cells at 20 mM 1-GlcNAc but was reduced by the presence of 50 mu M ITU (0.775 nmol/min per 10(6) cells). It is suggested that the phosphorylated derivative of 1-GlcNAc formed in hepatocytes is 1-GlcNAc 6-phosphate and that the presence of this species is responsible for the failure of 1-GlcNAc to activate GS. The relative importance of the reduction in concentration of GPa versus increased glucose 6-phosphate levels for activation of GS is discussed.