Activation of hepatic glycogen phosphorylase b in vivo by sodium sulphate in normal (Wistar) and phosphorylase b kinase-deficient (gsd/gsd) rats.

Sulphate ions have been known for some years to enhance the activity of hepatic glycogen phosphorylase b in vitro. Here we report that intravenous injections of 4.92 mmol of Na2SO4/kg body wt. to rats induced marked hepatic glycogenolysis in vivo, accompanied by polyuria, glycosuria and a mild hyperglycaemia. These effects were observed both in normal (Wistar) rats and in gsd/gsd rats that lacked hepatic phosphorylase kinase. In both rat strains the activity of glycogen phosphorylase in liver extracts was enhanced by pretreatment of the animals with Na2SO4, but in phosphorylase kinase-deficient livers the enhancement was solely in phosphorylase b activity, whereas both the a and b forms of the enzyme were activated in normal livers. Hepatic glycogenolysis was also induced by perfusing rat livers, both normal and gsd/gsd, with 25 mM-Na2SO4. Under these conditions both the rat strains showed only enhanced activities of glycogen phosphorylase b. This suggested that the increased activity of phosphorylase a in the extracts of normal livers after Na2SO4 administration in vivo was due to a hormonally mediated conversion of the b form into the a form. The activation of glycogen phosphorylase b was stable to dilution and appeared to be due to a long-lasting structural change in the enzyme or very tight binding of an activator.