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Glycogen metabolism signaling

The current state of Ser/Thr phosphorylation of a protein is determined by the relative activity of Ser/Thr-specific protein kinase and protein phosphatase. It is therefore imderstandable that the cell has had to develop special mechanisms to balance the two activities with one another, and, when needed, to allow kinase or phosphatase activity to dominate. One of the best investigated examples of coordinated activity of protein kinases and protein phosphatases is the regulation of glycogen metabolism in skeletal muscle. Glycogen metabolism is an example of how two different signals, namely a cAMP signal and a Ca signal meet in one metabolic pathway and control the activity of one and the same enzyme. [Pg.274]

Fig. 7.18. Regulation of glycogen metabolism in muscle. Phosphorylase kinase stands at the center of regulation of glycogen metabolism. Phosphorylase kinase may exist in an active, phosphorylated form and an inactive, unphosphorylated form. Phosphorylation of phosphorylase kinase is triggered by hormonal signals (e.g. adrenahne) and takes place via an activation of protein kinase A in the cAMP pathway. In the absence of hormonal stimulation, phosphorylase kinase can also be activated by an increase in cytosolic Ca. The active phosphorylase kinase stimulates glycogen degradation and inhibits glycogen synthesis, in that, on the one side, it activates glycogen phosphorylase by phosphorylation, and on the other side, it inactivates glycogen synthase by phosphorylation. Fig. 7.18. Regulation of glycogen metabolism in muscle. Phosphorylase kinase stands at the center of regulation of glycogen metabolism. Phosphorylase kinase may exist in an active, phosphorylated form and an inactive, unphosphorylated form. Phosphorylation of phosphorylase kinase is triggered by hormonal signals (e.g. adrenahne) and takes place via an activation of protein kinase A in the cAMP pathway. In the absence of hormonal stimulation, phosphorylase kinase can also be activated by an increase in cytosolic Ca. The active phosphorylase kinase stimulates glycogen degradation and inhibits glycogen synthesis, in that, on the one side, it activates glycogen phosphorylase by phosphorylation, and on the other side, it inactivates glycogen synthase by phosphorylation.
Renewed docking of the catalytic subunit requires the removal of the phosphate residue at the G subunit phosphorylated at the P2 site. This takes place via the protein phosphatases 2A and 2B (calcineurin). Thus, a cascade of protein phosphatases is involved in the regulation of dephosphorylation of key enzymes of glycogen degradation, whereby a phosphatase, namely protein phosphatase I, is indirectly activated by other protein phosphatases. With calcineurin, a Ca -dependent protein phosphatase is involved and thus it is possible to influence glycogen metabolism via Ca -mediated signals. [Pg.278]

The extent and specificity of the reactions of protein kinases and protein phosphatases are extremely dependent on the degree to which substrate and enzyme are localized at the same place in the cell. Many substrates of protein kinases occur either as membrane associated or particle associated forms (see 7.6.1, enzymes of glycogen metabolism). For protein kinases or protein phosphatases to perform their physiological function in a signal transduction process, they must be transported to the location of then-substrate in many cases (review Hubbard and Cohen, 1992 Mochly-Rosen, 1995). This is vahd both for the Ser/Tbr-specific protein kinases as well as for many Tyr-speci-fic protein kinases. In the course of activation of signal transduction pathways, com-partmentahzation of protein kinases, redistributed to new subcellular locations, is often observed. [Pg.279]

As work with vanadium compounds and diabetes in cell system has continued, it has become clear that there are also insulin-independent mechanisms at work. One insulin-independent signal transduction pathway appears to be involved in glycogen metabolism reactions in rat adipocytes [137] that also involve PI-3K. A major difference was that only vanadate promoted glycogenesis through the activation of a cytosolic protein tyrosine kinase, which was mediated in an insulin receptor-independent manner. [Pg.188]

With calcineurin, a Ca2+-dependent protein phosphatase is involved, and thus it is possible to influence glycogen metabolism via Ca2+-mediated signals. [Pg.301]

Adenylate cyclase is a membrane-bound enzyme that, after stimulation by a G protein, catalyzes formation of cAMP from ATP (see below). cAMP, thus formed, stimulates activation of a kinase cascade that affects several metabolic pathways, such as glycogen metabolism (see here) and gluconeogenesis. Adenylate cyclase plays an important role in signal transduction. [Pg.294]

Protein phosphatases (PPs) are a class of mammalian regulatory enzymes that catalyze the dephosphorylation of phosphoserine and phosphothreonine residues in proteins. Specific processes known to be controlled by protein phosphatases include glycogen metabolism, muscle contraction, mitosis, and transduction of hormonal signals. In the last 15 years, it has become... [Pg.662]


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See also in sourсe #XX -- [ Pg.601 , Pg.602 , Pg.603 ]




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