Carlos Villar-Palasí scite author profile

Elevated blood glucose concentrations result in increased intracellular levels of glucose 6-phosphate in liver, skeletal muscle, and adipose tissue. In liver, blood glucose concentrations are the main factor in control of the synthesis of glycogen; insulin has only a potentiating effect. In skeletal muscle and adipocytes, glucose alone has little effect on the activity of glycogen synthase, the limiting enzyme in glycogen synthesis. However, insulin released as a result of elevated blood glucose stimulates the translocation of specific glucose transporters to the cell membrane, increases the uptake of glucose, and causes the covalent, dephosphorylation-mediated activation of glycogen synthase. We present evidence that elevated intracellular contents of glucose 6-phosphate provoke the activation of glycogen synthase in liver, muscle, and adipose tissue. In addition, glucose 6-phosphate may inhibit the phosphorylation of glycogen synthase by cyclic AMP-stimulated protein kinase. We show that the stimulated glucose uptake and phosphorylation appear to play a major role in the control by insulin of the enzymes involved in glycogen synthesis.

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Structural and functional studies on rabbit liver glycogenin

Smythe

Villar-Palasí

Cohen

1989

European Journal of Biochemistry

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Glycogenin, the protein primer required for the biogenesis of muscle glycogen, has been isolated from rabbit liver glycogen. The protein comprised 0.0025% of liver glycogen by mass, 200-fold lower than the glycogenin content of muscle glycogen. Structural analyses, including determination of the amino acid sequence surrounding the glucosylated-tyrosine residue, showed identity with muscle glycogenin. Catalytically active liver glycogenin was partially purified and, like the skeletal muscle protein, catalysed an intramolecular, Mn2+-and UDP-Glcdependent autoglucosylation reaction, forming a primer on which glycogen synthase could act. The results demonstrate that hepatic and muscle glycogenins are almost certainly identical proteins and that liver and skeletal muscle share a common mechanism for the biogenesis of glycogen molecules. The results also indicate that there is about one glycogenin molecule/liver glycogen CI particle.

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Substrate specific activation by glucose 6-phosphate of the dephosphorylation of muscle glycogen synthase

Villar-Palasí

1991

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Insulin treatment and increased UDPG-glycogen transglucosylase activity in muscle

Villar-Palasí

Larner

1961

Archives of Biochemistry and Biophysics

162

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Studies on UDPG-Glycogen Transglucosylase. I. Preparation and Differentiation of Two Activities of UDPG-Glycogen Transglucosylase from Rat Skeletal Muscle^*

Rosell-Pérez¹,

Villar-Palasí²,

Larner³

1962

Biochemistry

160

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