Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glycogen synthase (EC 2.4.1.11) activity was studied in cell extracts from wild-type Chinese hamster ovary (CHO) cells and three mutants resistant to cyclic AMP effects on cell shape and cell growth. Based on the capacity of crude extracts to phosphorylate exogenous histone, two of the mutants appeared to have altered cyclic AMP-dependent protein kinase (EC 2.7.1.37) and one of them had apparently normal amounts of kinase activity. Glycogen synthase activity was present in comparable amounts in wild-type and all three mutant strains in a presumably inactive phosphorylated form since activity was virtually completely dependent upon the presence of glucose 6-phosphate. The enzyme could be partially dephosphorylated by endogenous phosphatases and rephosphorylated by exogenous cyclic AMP-dependent protein kinase. Attempts to find culture conditions (e.g. glucose starvation) or cell treatment (e.g. insulin) which might activate glycogen synthase in intact cells were unsuccessful. since glycogen synthase activity present in CHO cells was independent of the level of cyclic AMP-dependent kinase, we conclude that cyclic AMP-dependent protein kinase does not play a critical role in regulating the state of phosphorylation of the synthase.
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PMID:Glycogen synthase activity in Chinese hamster ovary cells. Studies with wild-type and mutant cells defective in cyclic AMP-dependent protein kinase. 626 97

Glycogen synthase kinase-3 (ATP:protein phosphotransferase, EC 2.7.1.37) phosphorylated K-casein 20-fold more rapidly than beta-casein, while alpha S1-casein was not a substrate. This distinguished it from casein kinase-I and casein kinase-II, which phosphorylate the beta-casein variant preferentially. Glycogen synthase kinase-3 phosphorylated a serine residue(s) in the C-terminal cyanogen bromide fragment on K-casein. In contrast, cyclic AMP-dependent protein kinase phosphorylated the N-terminal fragment, and phosphorylase kinase the N-terminal and intermediate cyanogen bromide fragments. The results emphasize the potential value of casein phosphorylation as a means of classifying protein kinases.
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PMID:Phosphorylation of K-casein by glycogen synthase kinase-3 from rabbit skeletal muscle. 630 31

A calmodulin-dependent glycogen synthase kinase distinct from phosphorylase kinase has been purified approximately equal to 5000-fold from rabbit skeletal muscle by a procedure involving fractionation with ammonium sulphate (0-33%), and chromatographies on phosphocellulose, calmodulin-Sepharose and DEAE-Sepharose. 0.75 mg of protein was obtained from 5000 g of muscle within 4 days, corresponding to a yield of approximately equal to 3%. The Km for glycogen synthase was 3.0 microM and the V 1.6-2.0 mumol min-1 mg-1. The purified enzyme showed a major protein staining band (Mr 58 000) and a minor component (Mr 54 000) when examined by dodecyl sulphate polyacrylamide gel electrophoresis. The molecular weight of the native enzyme was determined to be 696 000 by sedimentation equilibrium centrifugation, indicating a dodecameric structure. Electron microscopy suggested that the 12 subunits were arranged as two hexameric rings stacked one upon the other. Following incubation with Mg-ATP and Ca2+-calmodulin, the purified protein kinase underwent an 'autophosphorylation reaction'. The reaction reached a plateau when approximately equal to 5 mol of phosphate had been incorporated per 58 000-Mr subunit. Both the 58 000-Mr and 54 000-Mr species were phosphorylated to a similar extent. Autophosphorylation did not affect the catalytic activity. The calmodulin-dependent protein kinase initially phosphorylated glycogen synthase at site-2, followed by a slower phosphorylation of site-1 b. The protein kinase also phosphorylated smooth muscle myosin light chains, histone H1, acetyl-CoA carboxylase and ATP-citrate lyase. These findings suggest that the calmodulin-dependent glycogen synthase kinase may be a enzyme of broad specificity in vivo. Glycogen synthase kinase-4 is an enzyme that resembles the calmodulin-dependent glycogen synthase kinase in phosphorylating glycogen synthase (at site-2), but not glycogen phosphorylase. Glycogen synthase kinase-4 was unable to phosphorylate any of the other proteins phosphorylated by the calmodulin-dependent glycogen synthase kinase, nor could it phosphorylate site 1 b of glycogen synthase. The results demonstrate that glycogen synthase kinase-4 is not a proteolytic fragment of the calmodulin-dependent glycogen synthase kinase, that has lost its ability to be regulated by Ca2+-calmodulin.
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PMID:The calmodulin-dependent glycogen synthase kinase from rabbit skeletal muscle. Purification, subunit structure and substrate specificity. 631 30

A rapid method for purifying glycogen synthase a from rat liver was developed and the enzyme was tested as a substrate for nine different protein kinases, six of which were isolated from rat liver. The enzyme was phosphorylated on a 17-kDa CNBr fragment to approximately 1 phosphate/87-kDa subunit by phosphorylase b kinase from muscle or liver with a decrease in the activity ratio (-Glc-6-P/+Glc-6-P) from 0.95 to 0.6. Calmodulin-dependent glycogen synthase kinase from rabbit liver produced a similar phosphorylation pattern, but a smaller activity change. The catalytic subunit of beef heart cAMP-dependent protein kinase incorporated greater than 1 phosphate/subunit initially into a 17-kDa CNBr peptide and then into a 27-30-kDa CNBr peptide, with an activity ratio decrease to 0.5. Glycogen synthase kinases 3, 4, and 5 and casein kinase 1 were purified from rat liver. Glycogen synthase kinase 3 rapidly phosphorylated liver glycogen synthase to 1.5 phosphate/subunit with incorporation of phosphate into 3 CNBr peptides and a decrease in the activity ratio to 0.3. Glycogen synthase kinase 4 produced a pattern of phosphorylation and inactivation of liver synthase which was very similar to that caused by phosphorylase b kinase. Glycogen synthase kinase 5 incorporated 1 phosphate/subunit into a 24-kDa CNBr peptide, but did not alter the activity of the synthase. Casein kinase 1 phosphorylated and inactivated liver synthase with incorporation of phosphate into a 24-kDa CNBr peptide. This kinase and glycogen synthase kinase 4 were more active against muscle glycogen synthase. Calcium-phospholipid-dependent protein kinase from brain phosphorylated liver and muscle glycogen synthase on 17- and 27-kDa CNBr peptides, respectively. However, there was no change in the activity ratio of either enzyme. The following conclusions are drawn. 1) Liver glycogen synthase a is subject to multiple site phosphorylation. 2) Phosphorylation of some sites does not per se control activity of the enzyme under the assay conditions used. 3) Liver contains most, if not all, of the protein kinases active on glycogen synthase previously identified in skeletal muscle.
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PMID:Phosphorylation and inactivation of liver glycogen synthase by liver protein kinases. 631 13

Lithium ion, like insulin, activated adipocyte glycogen synthase with or without glucose in the medium. However, the effect of lithium ion was much greater than that of insulin under both conditions. The lithium-activated glycogen synthase was stable to both Sephadex chromatography and ethanol precipitation of the enzyme, indicating that the effect of lithium ion on glycogen synthase was through covalent modification of the enzyme. Glycogen synthase was significantly activated by lithium ion under conditions where concentrations of cellular ATP were unaffected. The effect of lithium ion on glycogen synthase was rapid and observed at concentrations as low as 1 to 3 mM, reaching a maximum at the concentration of 40 mM. It was thus the most sensitive of all the effects studied (see previous paper). Insulin further stimulated glycogen synthase at low concentrations but not at maximal concentration of lithium ion. Lithium-activated glycogen synthase was inhibited by both epinephrine and dibutyryl cyclic AMP, but was not affected by the removal of extracellular Ca++. Interestingly, lithium ion had no detectable effect on basal pyruvate dehydrogenase as well as on epinephrine-stimulated phosphorylase. The failure of lithium ion to thus mimic insulin actions on pyruvate dehydrogenase and on phosphorylase suggests that the action of lithium ion on glycogen synthase is quite specific and may be mediated by stimulating a phosphatase or by inhibiting a protein kinase acting specifically on glycogen synthase.
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PMID:'Insulin-like' effects of lithium ion on isolated rat adipocytes. II. Specific activation of glycogen synthase. 641 71

Glycogen synthase from skeletal muscle was phosphorylated by a Ca2+, calmodulin-dependent protein kinase from brain, with concomitant inactivation. About 0.7 mol phosphate/mol subunit was sufficient for a maximal inactivation of glycogen synthase. Further phosphorylation of the enzyme had no effect on the activity. The concentrations required to give half-maximal phosphorylation and inactivation of glycogen synthase were 1.1 and 0.5 microM for Ca2+, and 22 and 11 nM for calmodulin, respectively. The molar ratio of the subunit of the protein kinase to calmodulin was 2-3:1 for half-maximal phosphorylation and inactivation of glycogen synthase. The Km values for glycogen synthase and ATP were 3.6 and 114 microM, respectively, for phosphorylation. Phosphate was incorporated into sites Ia, Ib, and 2 on glycogen synthase, and site 2 was the most rapidly phosphorylated. These results indicate that the brain Ca2+, calmodulin-dependent protein kinase is probably involved in glycogen metabolism in the brain as a glycogen synthase kinase.
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PMID:Ca2+, calmodulin-dependent phosphorylation, and inactivation of glycogen synthase by a brain protein kinase. 643 36

Glycogen synthase kinase-3 phosphorylates three serine residues on glycogen synthase (sites 3a, 3b and 3c) which are all located in the same nine-amino-acid segment of the polypeptide chain. The sequence in this region is: Arg-Tyr-Pro-Arg-Pro-Ala-Ser(P)-Val-Pro-Pro-Ser(P)-Pro-Ser-Leu-Ser(P)-Arg-. These serine residues are distinct from the sites phosphorylated preferentially by cyclic-AMP-dependent protein kinase (sites 1a and 1b) and phosphorylase kinase (site 2). The N-terminal sequence of glycogen synthase containing the serine residue phosphorylated by phosphorylase kinase has been extended. The sequence in this region is: Pro-Leu-Ser-Arg-Thr-Leu-Ser(P)-Val-Ser-Ser-Leu-Pro-Gly-Leu-Glu-Asp-Trp-Glu-Asp- Glu-Phe-Asp-Leu-Glu-Asn-Ser-Val-Leu-Phe-(Asx2,Glx2,Ala2,Val2,Lys)-. The similarity to the N-terminal sequence of phosphorylase is confined to the immediate vicinity of the phosphorylation site (residues 4--15). The relationship of glycogen synthase kinase-3 to glycogen synthase kinases that have been described by other laboratories is discussed.
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PMID:Glycogen synthase from rabbit skeletal muscle. Amino acid sequence at the sites phosphorylated by glycogen synthase kinase-3, and extension of the N-terminal sequence containing the site phosphorylated by phosphorylase kinase. 677 46

Glycogen synthase I in a homogenate of human polymorphonuclear leukocytes was phosphorylated under imitated physiological conditions utilizing the endogenous protein kinases. At subsequent steps of phosphorylation the 32P-labelled synthase was purified and characterized. Limited tryptic hydrolysis of the 32P-labelled synthase released four phosphopeptides (t-A, t-B, t-C, t-D) and subsequent chymotrypsinization of the trypsin resistant core released three phosphopeptides (c-A, c-B, c-C). One Pi/subunit was incorporated within 8-10 min and 2.2 Pi/subunit within 60 min increasing the Kc for Glc-6-P to 4-6 mM. The initial phosphorylation up to 0.8 Pi/subunit occurred mainly in peptide c-A and a linear relation between ratio of independence (RI) of glycogen synthase in the interval RI 0.85 to RI 0.05 and phosphorylation of this peptide of 0.5 Pi was observed. Phosphorylation of this peptide is responsible for the decrease in ratio of independence. From experiments with inhibitors and activators, the initial phosphorylation was found predominantly catalysed by the endogenous cAMP independent synthase kinase, however, the endogenous cAMP dependent protein kinase and phosphorylase kinase also phosphorylate endogenous glycogen synthase I to a minor degree. Circumstantial evidence for a Ca-dependent synthase kinase different from phosphorylase kinase is presented. The endogenous Glc-6-P dependent glycogen synthase occurring in a homogenate of leukocytes disrupted in the presence of NaF incorporated 1.07 Pi/subunit and Kc for Glc-6 was increased from 6-8 mM to 20 mM. From the present and previous experiments [7] a total of 8 major phosphorylatable sites have been defined, one on each of the peptides t-A, t-B, c-B, c-C and two on peptide c-A, which in addition may contain a third site for phosphorylase kinase. Assuming identical subunits, only 13 out of 32 sites are thus covalently modified at maximum phosphorylation. The operational defined synthase R (Kc for Glc-6-P 0.5 mM) and D (Kc for Glc-6-P 2-8 mM) activities correspond to synthase with about 0.8 Pi and 1.8-2.3 Pi/subunit, respectively.
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PMID:Phosphorylation of glycogen synthase in a homogenate of human polymorphonuclear leukocytes. 678 73

Glycogen synthase is a substrate for five distinct protein kinases in skeletal muscle which phosphorylate seven different serine residues on the enzyme. Cyclic-AMP-dependent protein kinase phosphorylates sites 1a, 1b and 2, phosphorylase kinase, site 2, glycogen synthase kinase 3, sites 3a, 3b and 3c, glycogen synthase kinase 4, site 2 and glycogen synthase kinase 5 site 5. Site 2 is seven residues from the N-terminus of glycogen synthase and is located in a cyanogen bromide peptide termed CB1 (apparent Mr = 9000). The other six phosphorylation sites are located in a cyanogen bromide peptide termed CB2 (apparent Mr = 24 000) at the C-terminal end of the molecule. The sequence of the N-terminal 123 residues of peptide CB2, has been completed. Sites 3a, 3b, 3c, 5, 1a and 1b are located at residues 30, 34, 38, 46, 87 and 100 from the N-terminus of CB2 respectively. Site 1a is the next serine residue after site 5. The region surrounding sites 3a, 3b and 3c is very rich in proline residues while that surrounding sites 1a and 1b contains many serine and threonine residues. The 23 residues following site 5 contain 15 aspartic acid and glutamic acid residues, while the region immediately N-terminal to site 1a is very basic. The whole region is remarkably hydrophilic and is the region at which the native enzyme is attacked by proteinases. The sites at which glycogen synthase is cleaved by trypsin, chymotrypsin and thermolysin have been identified. The finding that trypsin cleaves the enzyme C-terminal to site 3c while chymotrypsin cleaves N-terminal to site 3a has formed the basis of a simple procedure for determining the state of phosphorylation of the seven serine residues in vivo [Parker, P.J., Embi, N., Caudwell, F.B., and Cohen, P. (1982) Eur. J. Biochem. 124, 47-55].
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PMID:Multisite phosphorylation of glycogen synthase from rabbit skeletal muscle. Organisation of the seven sites in the polypeptide chain. 680 97

Glycogen synthase kinase-5 (casein kinase-II) phosphorylates glycogen synthase on a serine termed site 5. This residue is just C-terminal to the 3 serines phosphorylated by glycogen synthase kinase-3, which are critical for the hormonal regulation of glycogen synthase in vivo. Although phosphorylation of site 5 does not affect the catalytic activity, it is demonstrated that this modification is a prerequisite for phosphorylation by glycogen synthase kinase-3. Since site 5 is almost fully phosphorylated in vivo under all conditions, the role of glycogen synthase kinase-5 would appear to be a novel one in forming the recognition site for another protein kinase.
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PMID:Multisite phosphorylation of glycogen synthase from rabbit skeletal muscle. Phosphorylation of site 5 by glycogen synthase kinase-5 (casein kinase-II) is a prerequisite for phosphorylation of sites 3 by glycogen synthase kinase-3. 681 60


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