Hepatic glycogen synthesis is highly sensitive to phosphorylase activity: evidence from metabolic control analysis

Hepatic glycogen synthesis is highly sensitive to phosphorylase activity: evidence from metabolic control analysis

We used metabolic control analysis to determine the flux control coefficient of phosphorylase on glycogen synthesis in hepatocytes by titration with a specific phosphorylase inhibitor (CP-91149) or by expression of muscle phosphorylase using recombinant adenovirus. The muscle isoform was used becaus...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 276; no. 26; p. 23858
Main Authors: Aiston, S, Hampson, L, Gómez-Foix, A M, Guinovart, J J, Agius, L
Format: Journal Article
Language:English
Published: United States 29-06-2001
Subjects:
Adenosine Monophosphate - pharmacology
Adenoviridae - genetics
Amides - pharmacology
Animals
Cells, Cultured
Enzyme Inhibitors - pharmacology
Glucagon - pharmacology
Glucokinase - genetics
Glucokinase - metabolism
Glucose - pharmacology
Glycogen Synthase - genetics
Glycogen Synthase - metabolism
Hepatocytes - drug effects
Hepatocytes - enzymology
Hepatocytes - metabolism
Indoles - pharmacology
Liver Glycogen - biosynthesis
Male
Phosphorylase b - antagonists & inhibitors
Phosphorylase b - metabolism
Phosphorylases - antagonists & inhibitors
Phosphorylases - metabolism
Rats
Rats, Wistar
Transfection
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Summary:We used metabolic control analysis to determine the flux control coefficient of phosphorylase on glycogen synthesis in hepatocytes by titration with a specific phosphorylase inhibitor (CP-91149) or by expression of muscle phosphorylase using recombinant adenovirus. The muscle isoform was used because it is catalytically active in the b-state. CP-91149 inactivated phosphorylase with sequential activation of glycogen synthase. It increased glycogen synthesis by 7-fold at 5 mm glucose and by 2-fold at 20 mm glucose with a decrease in the concentration of glucose causing half-maximal rate (S(0.5)) from 26 to 19 mm. Muscle phosphorylase was expressed in hepatocytes mainly in the b-state. Low levels of phosphorylase expression inhibited glycogen synthesis by 50%, with little further inhibition at higher enzyme expression, and caused inactivation of glycogen synthase that was reversed by CP-91149. At endogenous activity, phosphorylase has a very high (greater than unity) negative control coefficient on glycogen synthesis, regardless of whether it is determined by enzyme inactivation or overexpression. This high control is attenuated by glucokinase overexpression, indicating dependence on other enzymes with high control. The high control coefficient of phosphorylase on glycogen synthesis affirms that phosphorylase is a strong candidate target for controlling hyperglycemia in type 2 diabetes in both the absorptive and postabsorptive states.
ISSN:0021-9258
DOI:10.1074/jbc.M101454200