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)

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

A protein kinase, able to phosphorylate casein, phosvitin, and glycogen synthase, was purified approximately 9000-fold from rabbit liver, and appeared analogous to an enzyme studied by Itarte and Huang (Itarte, E., and Huang, K.-P. (1979) J. Biol. Chem. 254, 4052-4057). This enzyme, designated here casein kinase-1, was shown to be a distinct glycogen synthase kinase and in particular to be different from the protein kinase GSK-3 (Hemmings, B.A., Yellowlees, D., Kernohan, J.C., and Cohen, P. (1981) Eur. J. Biochem. 119, 443-451). Casein kinase-1 had native molecular weight of 30,000 as judged by gel filtration. The enzyme phosphorylated beta-casein A or B better than kappa-casein or alpha s1-casein, and modified only serine residues in beta-casein B and phosvitin. The apparent Km for ATP was 11 microM, and GTP was ineffective as a phosphoryl donor. The phosphorylation of glycogen synthase by casein kinase-1 was inhibited by glycogen, half-maximally at 2 mg/ml, and by heparin, half-maximally at 0.5-1.0 microgram/ml, but was unaffected by Ca2+ and/or calmodulin, or by cyclic AMP. Phosphorylation of muscle glycogen synthase proceeded to a stoichiometry of at least 6 phosphates/subunit with reduction in the +/- glucose-6-P activity ratio to less than 0.4. Phosphate was introduced into both a COOH-terminal CNBr fragment (CB-2) as well as a NH2-terminal fragment (CB-1). At a phosphorylation stoichiometry of 6 phosphates/subunit, 84% of the phosphate was associated with CB-2 and 6.5% with CB-1. The remainder of the phosphate was introduced into another CNBr fragment of apparent molecular weight 16,500. Phosphorylation by casein kinase-1 correlated with reduced electrophoretic mobilities, as analyzed on polyacrylamide gels in the presence of sodium dodecyl sulfate, of the intact glycogen synthase subunit, as well as the CNBr fragments CB-1 and CB-2.
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PMID:Glycogen synthase kinases. Classification of a rabbit liver casein and glycogen synthase kinase (casein kinase-1) as a distinct enzyme. 632 24

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

Rabbit skeletal muscle glycogen synthase, a rate-limiting enzyme for glycogen biosynthesis, is regulated by multisite phosphorylation. The protein kinase glycogen synthase kinase 3 (GSK-3) phosphorylates 4 Ser residues (Ser-640, Ser-644, Ser-648, and Ser-652; also known as sites 3a, 3b, 3c, and 4, respectively) at the COOH terminus of the subunit. Phosphorylation of these sites by GSK-3 is sequential, from COOH- to NH2-terminal, and is wholly dependent on prior phosphorylation by casein kinase II at Ser-656 (site 5). Expression in Escherichia coli was used to generate mutant forms of glycogen synthase, S640A, S644A, and S648A, in which site 3a, site 3b, or site 3c was changed to Ala, respectively. The purified enzymes had -/+ glucose-6-P activity ratios in the range of 0.8-0.9. Phosphorylation by casein kinase II and GSK-3 gave results consistent with the model of obligate sequential action of GSK-3. Phosphorylation at site 5, sites 4 + 5, or sites 3c + 4 + 5 had no measurable effect on activity. When sites 3b + 3c + 4 + 5 were phosphorylated, modest inactivation resulted. Additional phosphorylation at site 3a, however, was potently inactivating, reducing the -/+ glucose-6-P activity ratio to 0.1 and increasing the glucose-6-P concentration needed for half-maximal activation by an order of magnitude. Introduction of each additional phosphate, in the order site 4, 3c, 3b, and 3a, caused an incremental reduction in the mobility of the subunit when analyzed by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate. The results of this study demonstrate that GSK-3 phosphorylation of site 3a (Ser-640), and to a lesser extent, site 3b, correlates with inactivation of glycogen synthase by GSK-3. Evidence is also presented for an allosteric mechanism of inactivation whereby modification of one subunit influences the activity state of adjacent subunits.
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PMID:Inactivation of rabbit muscle glycogen synthase by glycogen synthase kinase-3. Dominant role of the phosphorylation of Ser-640 (site-3a). 822 27

We have shown previously that brain tissue contains protein kinases which can phosphorylate tau protein to a state reminiscent of the pathological state of Alzheimer paired helical filaments (PHFs); these include proline-directed kinases which phosphorylate SP or TP motifs (such as MAP kinase and GSK-3) [Drewes et al. (1992); Mandelkow et al. (1992)], as well as a novel kinase which phosphorylates S262 of tau protein and thereby strongly reduces the binding of tau to microtubules [Biernat et al. (1993)]. Here we report on the corresponding phosphatases in brain which normally keep the 'pathological' sites free of phosphate. The major phosphatases acting on tau are calcineurin and PP-2A, but not PP-1. Both are present and active in brain extracts, they can dephosphorylate recombinant tau after prior phosphorylation with either MAP kinase, GSK-3, or brain extract, and the course of dephosphorylation can be monitored with antibodies diagnostic of the pathological state of tau. Both phosphatases also act directly on PHF tau isolated from Alzheimer brains.
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PMID:Dephosphorylation of tau protein and Alzheimer paired helical filaments by calcineurin and phosphatase-2A. 828 5

Phosphorylation of inhibitor 2, the regulatory subunit of the ATP-Mg-dependent protein phosphatase, by glycogen synthase kinase 3 (GSK-3) causes activation of the phosphatase. Prior phosphorylation by casein kinase II has been shown to enhance both phosphorylation and activation of the phosphatase by GSK-3 (DePaoli-Roach, A. A. (1984) J. Biol. Chem. 259, 12144-12152). Reported here is a comparison of the phosphorylation of inhibitor 2 by two defined isoforms of GSK-3, GSK-3 alpha and GSK-3 beta. GSK-3 beta was a significantly better inhibitor 2 kinase than was GSK-3 alpha. The Vmax/Km value for GSK-3 beta was approximately 10-fold higher than that for GSK-3 alpha. GSK-3 beta phosphorylated inhibitor 2 to a stoichiometry of approximately 1.0 mol of phosphate/mol of inhibitor 2. The phosphorylation by GSK-3 beta was determined to be exclusively at Thr-72 on the basis of the inability of the enzyme to modify a mutant inhibitor 2 in which Thr-72 was changed to alanine. Prior phosphorylation by casein kinase II promoted the action of GSK-3 alpha in keeping with earlier reports using undefined GSK-3 preparations. Phosphorylation by GSK-3 beta, in contrast, was unaffected by the previous action of casein kinase II. These results suggest that there can be important differences in substrate recognition by different isoforms of the same protein kinase and may help explain why some reported GSK-3 substrates require prior phosphorylation whereas other do not.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isoform differences in substrate recognition by glycogen synthase kinases 3 alpha and 3 beta in the phosphorylation of phosphatase inhibitor 2. 828 31

Inhibitor-2 (I-2) is the regulatory subunit of the ATP-Mg-dependent phosphatase, a cytosolic form of type 1 protein phosphatase. Phosphorylation of I-2 at Thr-72 by the protein kinase glycogen synthase kinase-3 (GSK-3) leads to activation of the enzyme. Casein kinase II action was shown to synergistically enhance phosphorylation and activation by GSK-3 (DePaoli-Roach, A.A. (1984) J. Biol. Chem. 259, 12144-12152). Rabbit skeletal muscle and liver I-2 cDNA clones have been isolated. Rabbit skeletal muscle cDNAs could be placed in two subtypes, differing in the length of the 3'-untranslated region. The coding sequence of 612 nucleotides was identical in the two skeletal muscle and the liver cDNAs and predicted a protein of 204 amino acids, consistent with analysis of the purified protein. Northern hybridization analysis indicated that the two mRNAs of 1.7 and 2.7 kilobase pairs were present in all rabbit tissues examined, except in liver, where only the larger transcript was detected, and in testis, where additional transcripts were present. Expression in Escherichia coli of wild-type and phosphorylation site mutants resulted in the production of I-2 polypeptides with apparent M(r) values of approximately 31,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The inhibitory activity of the recombinant proteins was similar to that of native rabbit skeletal muscle I-2 and was unaffected by the substitution of alanine for the GSK-3 site (Thr-72) and for the casein kinase II sites (Ser-86 and Ser-120/121) or by substitution of glutamic acid and aspartic acid for Thr-72 and Ser-86. Recombinant wild-type I-2 and the Ala-120/121 mutant were phosphorylated synergistically by GSK-3 and casein kinase II. The Thr-72 and Ser-86 mutants, however, did not undergo this synergistic phosphorylation. Our studies indicate that Thr-72 is the only GSK-3 site and that Ser-86 is the casein kinase II site required for the potentiation of GSK-3 action. Furthermore, acidic residues cannot substitute for the phosphate group either in enhancing GSK-3 phosphorylation or in activating the phosphatase.
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PMID:Molecular mechanism of the synergistic phosphorylation of phosphatase inhibitor-2. Cloning, expression, and site-directed mutagenesis of inhibitor-2. 828 48

TPK-III, a tyrosine-protein-kinase fraction previously isolated from rat spleen [Brunati, A. M. & Pinna, L. A. (1988) Eur. J. Biochem. 172, 451-457] has been further purified and resolved by Mono-Q FPLC into two homogeneous compounds, Q1 and Q2, with molecular mass approximately 52 kDa, exhibiting high specific activities for phosphate incorporation into the phosphoacceptor substrate poly(Glu80Tyr20) (1194 nmol.min-1 x mg-1 and 579 nmol.min-1 x mg-1, respectively). Both Q1 and Q2 appear to be scr-related enzymes since they are readily recognised by anti-SEEP serum raised against the highly conserved segment at positions 330-345 of p60c-scr. Q1, but not Q2, interacts with a specific antibody raised against the N-terminal segment of p55c-fgr. Microsequence analysis of tryptic fragments generated from Q1 revealed five peptides which exactly overlap the expected segments of p55c-fgr. Two of these peptides were not entirely conserved in any of the other src-related tyrosine protein kinases. A sixth fragment is very similar, albeit not identical, to the C-terminus of p55c-fgr. Microsequence analysis of two tryptic fragments from the other TPK-III fraction, Q2, provided the sequences FQILNSSE and LTTQETGYIPSNY, which are identical to two segments of fyn not entirely conserved in any of the other src-related tyrosine protein kinases. These results provide evidence that the spleen tyrosine-protein-kinase fraction, conventionally designated TPK-III, is composed of products from two proto-oncogenes, one of which corresponds to fyn, while the other is either identical or very closely related to c-fgr.
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PMID:Isolation and identification of two proto-oncogene products related to c-fgr and fyn in a tyrosine-protein-kinase fraction of rat spleen. 836 14

The in vitro phosphorylation of the guanine nucleotide exchange factor (eIF-2B) by casein kinase 2 (CK-2) was previously shown to stimulate the binding of GTP to eIF-2B and increase nucleotide exchange [Singh, L. P., Aroor, A. R., & Wahba, A. J. (1994) Biochemistry 33, 9152-9157]. The present study examines the in vitro phosphorylation of the 82-kDa subunit of eIF-2B by CK-1 and glycogen synthase kinase 3 (GSK-3) and the effects of this covalent modification on nucleotide exchange. Phosphorylation with CK-1 adds approximately 0.27 mol of phosphate/mol of eIF-2B and doubles guanine nucleotide exchange activity. Treatment of the phosphorylated eIF-2B with alkaline phosphatase reduces its activity by a factor of 4, and rephosphorylation with CK-1 (0.49 mol of phosphate/mol of eIF-2B) restores its specific activity to that of the phosphorylated protein. GSK-3 phosphorylates the 82-kDa subunit of both isolated and alkaline phosphatase-treated eIF-2B; however, the stoichiometry of phosphorylation is much less (approximately 0. 12 mol/mol of eIF-2B in both preparations) than that obtained with CK-1 or CK-2. Phosphorylation of eIF-2B with GSK-3 neither stimulates nor inhibits GDP/GTP exchange. The results of this study indicate that phosphorylation of eIF-2B with CK-1 and/or CK-2 is required for GTP binding to the protein. Evidence is also presented for a mechanism of regulation of eIF-2B activity whereby phosphorylation by GSK-3 influences the activity of the protein and partially suppresses phosphorylation by CK-1 or CK-2.
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PMID:Modulation of rabbit reticulocyte guanine nucleotide exchange factor activity by casein kinases 1 and 2 and glycogen synthase kinase 3. 860 55

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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