We investigated the inhibitory effect of Ca2+ in the micromolar range on the activation of glycogen synthase in crude gel-filtered liver extracts [van de Werve (1981) Biochem. Biophys. Res. Commun. 102, 1323-1329]. The magnitude of the inhibition was highly dependent on the glycogen concentration in the final liver extract. Ca2+ inhibited the activation of purified hepatic synthase b by the G-component of synthase phosphatase, as present in the isolated glycogen-protein complex. The cytosolic S-component was not inhibited. Maximal inhibition of the crude G-component occurred at 0.3 microM-Ca2+. The inhibition was not influenced by the addition of either calmodulin or calmodulin antagonists, or by various proteinase inhibitors. The use of purified G-component revealed that the inhibition by 0.3 microM-Ca2+ increased from 45% to 85% when the concentration of glycogen was raised from 1.5 to 20 mg/ml. Muscle glycogen synthase, extensively phosphorylated in vitro, was also used as substrate for purified G-component. Activation and dephosphorylation were similarly inhibited by 0.3 microM-Ca2+, but the magnitude of the inhibition was much greater with the hepatic substrate. No effect of 0.3 microM-Ca2+ was found on the activity of phosphorylase phosphatase in various liver preparations. We conclude that the inhibition of synthase activation by Ca2+ is one of the mechanisms by which cyclic AMP-independent glycogenolytic hormones promote the inactivation of glycogen synthase in the liver, especially in the fed state.
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Research Article| December 15 1985
Calcium ions and glycogen act synergistically as inhibitors of hepatic glycogen-synthase phosphatase
Biochem J (1985) 232 (3): 697–704.
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L Mvumbi, M Bollen, W Stalmans; Calcium ions and glycogen act synergistically as inhibitors of hepatic glycogen-synthase phosphatase. Biochem J 15 December 1985; 232 (3): 697–704. doi: https://doi.org/10.1042/bj2320697
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