Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.26 (GSK)
6,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glycogen synthase was purified to near homogeneity from rat skeletal muscle, and was found to resemble the rabbit skeletal muscle enzyme in several respects. An apparent molecular weight (Mapp) of 86,000 was estimated from the electrophoretic mobility of the subunit on polyacrylamide gels in the presence of sodium dodecyl sulfate. Limited proteolysis of the rat synthase with trypsin resulted in the formation of species with MappS equal to 75,000, 69,000, and 67,000. The enzyme could be phosphorylated by cAMP-dependent protein kinase, phosphorylase kinase, and the cAMP-independent protein kinases, PC0.7 and FA/GSK-3. Essentially all of the phosphorylation observed occurred on serines located in two cyanogen bromide fragments, denoted CB-1 (Mapp = 13,000) and CB-2 (Mapp = 22,000). FA/GSK-3 and cAMP-dependent protein kinase phosphorylated sites in both fragments. Phosphate introduced by phosphorylase kinase was located exclusively in CB-1, and that incorporated with PC0.7 was found in CB-2. Phosphorylation by FA/GSK-3 reduced the electrophoretic mobility of the subunit, introduced heterogeneity into CB-2, and was synergistic with phosphorylation by PC0.7. To separate phosphorylation sites more completely, samples of glycogen synthase were subjected to extensive proteolysis using trypsin, followed by reverse-phase liquid chromatography. When phosphorylated by the same kinases, the pattern of fragments obtained with rat and rabbit skeletal muscle glycogen synthase were almost identical. The results presented provide strong evidence that the subunit of rat skeletal muscle glycogen synthase has at least five phosphorylation sites that are very similar, if not identical, to sites present on the rabbit muscle enzyme.
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PMID:Rat skeletal muscle glycogen synthase: phosphorylation of the purified enzyme by cAMP-dependent and -independent protein kinases. 298 12

The stoichiometry of the phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1) depended on the concentration of protein kinase in the assay and reached values of 7-8 mol/mol subunit at high concentrations. Phosphorylation by CK-1 above 4 mol/mol subunit promoted a further decrease of glycogen synthase activity when determined by the low glucose-6-phosphate/high glucose-6-phosphate activity ratio assay. Analysis by limited proteolysis with trypsin and chymotrypsin showed that all of the regions in glycogen synthase phosphorylated by casein/glycogen synthase kinase-2 (CK-2), the catalytic subunit of cyclic AMP-dependent protein kinase (A-kinase), FA/glycogen synthase kinase-3 (FA/GSK-3) and phosphorylase b kinase were also phosphorylated by CK-1. Digestion with CNBr of glycogen synthase phosphorylated by CK-1 revealed the presence of the two phosphopeptides also labeled by the other protein kinases, the largest phosphopeptide (CB2) containing more phosphorylation sites for CK-1 than the smallest one (CB1). Three phosphopeptides (CB2-c, CB2-d and CB2-e) were obtained by trypsinization of CB2 phosphorylated by CK-1. None of them coincided with those labeled by A-kinase, a fact that was confirmed by the additivity of the effect of both protein kinases. In contrast, CB2-d comigrated with the peptide phosphorylated by FA/GSK-3, and CB2-e with that labeled by CK-2, whereas CB2-c would correspond to a new phosphopeptide.
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PMID:Phosphorylation of rabbit muscle glycogen synthase by casein/glycogen synthase kinase-1 (CK-1). Stoichiometry and distribution of the phosphorylation sites on the glycogen synthase subunit. 301 47

Rat liver glycogen synthase was purified to homogeneity by an improved procedure that yielded enzyme almost exclusively as a polypeptide of Mr 85,000. The phosphorylation of this enzyme by eight protein kinases was analyzed by cleavage of the enzyme subunit followed by mapping of the phosphopeptides using polyacrylamide gel electrophoresis in the presence of SDS, reverse-phase high-performance liquid chromatography and thin-layer electrophoresis. Cyclic AMP-dependent protein kinase, phosphorylase kinase, protein kinase C and the calmodulin-dependent protein kinase all phosphorylated the same small peptide (approx. 20 amino acids) located in a 14 kDa CNBr-fragment (CB-1). Calmodulin-dependent protein kinase and protein kinase C also modified second sites in CB-1. A larger CNBr-fragment (CB-2) of approx. 28 kDa was the dominant site of action for casein kinases I and II, FA/GSK-3 and the heparin-activated protein kinase. The sites modified were all localized in a 14 kDa species generated by trypsin digestion. Further proteolysis with V8 proteinase indicated that FA/GSK-3 and the heparin-activated enzyme recognized the same smaller peptide within CB-2, which may also be phosphorylated by casein kinase 1. Casein kinase 1 also modified a distinct peptide, as did casein kinase II. The results lead us to suggest homology to the muscle enzyme with regard to CB-1 phosphorylation and the region recognized by FA/GSK-3, which in rabbit muscle is characterized by a high density of proline and serine residues. A striking difference with the muscle isozyme is the apparent lack of phosphorylations corresponding to the muscle sites 1a and 1b. These results provide further evidence for the presence of liver- and muscle-specific glycogen synthase isozymes in the rat. That the isozymes differ subtly as to phosphorylation sites may provide a clue to the functional differences between the isozymes.
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PMID:Multiple phosphorylation sites of rat liver glycogen synthase. 309 Oct 84

Purified rabbit liver glycogen synthase was found to be a substrate for six different protein kinases: (i) cyclic AMP-dependent protein kinase, (ii) two Ca2+-stimulated protein kinases, phosphorylase kinase (from muscle) and a calmodulin-dependent glycogen synthase kinase, and (iii) three members of a Ca2+ and cyclic nucleotide independent class, PC0.7, FA/GSK-3, and casein kinase-1. Greatest inactivation accompanied phosphorylation by cyclic AMP-dependent protein kinase (to 0.5-0.7 phosphate/subunit, +/- glucose-6-P activity ratio reduced from approximately 1 to 0.6) or FA/GSK-3 (to approximately 1 phosphate/subunit, activity ratio, 0.46). Phosphorylation by the combination FA/GSK-3 plus PC0.7 was synergistic, and more extensive inactivation was achieved. The phosphorylation reactions just described caused significant reductions in the Vmax of the glycogen synthase with little effect on the S0.5 (substrate concentration corresponding to Vmax/2). Phosphorylase kinase achieved a lesser inactivation, to an activity ratio of 0.75 at 0.6 phosphate/subunit. PC0.7 acting alone, casein kinase-1, and the calmodulin-dependent protein kinase did not cause inactivation of liver glycogen synthase with the conditions used. Analysis of CNBr fragments of phosphorylated glycogen synthase indicated that the phosphate was distributed primarily between two polypeptides, with apparent Mr = 12,300 (CB-I) and 16,000-17,000 (CB-II). PC0.7 and casein kinase-1 displayed a decided specificity for CB-II, and the calmodulin-dependent protein kinase was specific for CB-I. The other protein kinases were able, to some extent, to introduce phosphate into both CB-I and CB-II. Studies using limited proteolysis indicated that CB-II was located at a terminal region of the subunit. CB-I contains a minimum of one phosphorylation site and CB-II at least three sites. Liver glycogen synthase is therefore potentially subject to the same type of multisite regulation as skeletal muscle glycogen synthase although the muscle and liver enzymes display significant differences in both structural and kinetic properties.
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PMID:Phosphorylation of rabbit liver glycogen synthase by multiple protein kinases. 632 70

Isolated rat hepatocytes were incubated in a medium containing 0.1 mM [32P]phosphate (0.1 mCi/ml) before exposure to epinephrine, glucagon or vasopressin. 32P-labeled glycogen synthase was purified from extracts of control or hormone-treated cells by the use of specific antibodies raised to rabbit skeletal muscle glycogen synthase. Analysis of the immunoprecipitates by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that a single 32P-labeled polypeptide, apparent Mr 88000, was removed specifically by the antibodies and corresponded to glycogen synthase. Similar electrophoretic analysis of CNBr fragments prepared from the immunoprecipitate revealed that 32P was distributed between two fragments, of apparent Mr 14000 (CB-1) and 28000 (CB-2). Epinephrine, vasopressin or glucagon increased the 32P content of the glycogen synthase subunit. CB-2 phosphorylation was increased by all three hormones while CB-1 was most affected by epinephrine and vasopressin. These effects correlated with a decrease in glycogen synthase activity. From studies using rat liver glycogen synthase, purified by conventional methods and phosphorylated in vitro by individual protein kinases, it was found that electrophoretically similar CNBr fragments could be obtained. However, neither cyclic-AMP-dependent protein kinase nor three different Ca2+-dependent enzymes (phosphorylase kinase, calmodulin-dependent protein kinase, and protein kinase C) were effective in phosphorylating CB-2. The protein kinases most effective towards CB-2 were the Ca2+ and cyclic-nucleotide-independent enzymes casein kinase II (PC0.7) and FA/GSK-3. The results demonstrate that rat liver glycogen synthase undergoes multiple phosphorylation in whole cells and that stimulation of cells by glycogenolytic hormones can modify the phosphorylation of at least two distinct sites in the enzyme. The specificity of the hormones, however, cannot be explained simply by the direct action of any known protein kinase dependent on cyclic nucleotide or Ca2+. Therefore, either control of other protein kinases, such as FA/GSK-3, is involved or phosphatase activity is regulated, or both.
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PMID:Control of glycogen synthase phosphorylation in isolated rat hepatocytes by epinephrine, vasopressin and glucagon. 643 31

Abnormally phosphorylated tau is the major component of paired helical filaments found in the brains of patients suffering from Alzheimer's disease. Therefore, the identification of kinases that phosphorylate tau is of considerable interest. A DEAE-Sepharose column resolved porcine brain extract into five tau kinase activity peaks. Among these peaks, two were completely inhibited by EGTA, indicating that these two activity peaks contained Ca2+-dependent tau kinases. One of the above two Ca2+-dependent tau kinase activity peaks also contained phosphorylase kinase activity. The tau kinase and phosphorylase kinase activities associated with this peak could not be separated from each other by Superose 12 gel filtration, hydroxylapatite, and calmodulin-agarose affinity chromatographies. Phosphorylase kinase, purified from rabbit skeletal muscle, phosphorylated tau to a stoichiometry of 2.1 mol of phosphate/mol of tau and converted tau to a species with a retarded mobility on SDS-polyacrylamide gel electrophoresis. The apparent Km and kcat values for tau phosphorylation by muscle phosphorylase kinase were 6.9 microM and 47.4 min-1, respectively. As a substrate of muscle phosphorylase kinase, phosphorylase was eight times better than tau. Sequence analyses of tryptic and thermolytic phosphopeptides derived from tau phosphorylated by muscle phosphorylase kinase revealed five phosphorylation sites, Ser237, Ser262, Ser285, Ser305, and Ser352. Among these sites, Ser262 was previously shown to be phosphorylated in human tau from fetal, adult, and Alzheimer's diseased brains (Seubert, P., Mawal-Dewan, M., Barbour, R., Jakes, R., Goedert, M., Johnson, G. V. W., Litersky, J. M., Schenk, D., Lieberburg, I., Trojanowski, J. Q., and Lee, V. M. Y. (1995) J. Biol. Chem. 270, 18917-18922); and its phosphorylation abolished tau's binding to microtubules (Drewes, G., Trinczek, B., Illenberger, S., Biernat, J., Schmitt-Ulms, G., Meyer, H. E., Mandelkow, E.-M., and Mandelkow, E. (1995) J. Biol. Chem. 270, 7679-7688). Slot-blot analysis using a monoclonal antibody against muscle phosphorylase kinase and an activity assay using phosphorylase revealed that phosphorylase kinase was present in microtubules extensively purified by repeated cycles of polymerization and depolymerization. Taken together, these results suggest that in neurons, phosphorylase kinase may be one of the kinases that participate in the phosphorylation of tau.
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PMID:The regulatory Ser262 of microtubule-associated protein tau is phosphorylated by phosphorylase kinase. 899 60

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