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)

Exogenous application of synthetic amyloid beta protein (A beta) is known to induce neurotoxic effects in rat hippocampal culture. We report here that A beta (25-35) induces accumulation of amyloid precursor protein (APP) derivatives in the cytoplasm of neurons. At the same time, the level of the secreted form of APP released into the culture medium decreases. Tau protein kinase I/glycogen synthase kinase-3 beta (TPK I/GSK-3 beta) antisense oligonucleotide blocked APP accumulation and prevented neuronal death. These results provide evidence that APP accumulation after A beta treatment is regulated by TPK I/GSK-3 beta. A beta neurotoxicity is probably mediated via phosphorylation of tau by TPK I/GSK-3 beta, resulting in an impairment of axonal transport, and cytoplasmic accumulation of APP.
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PMID:Amyloid beta peptide induces cytoplasmic accumulation of amyloid protein precursor via tau protein kinase I/glycogen synthase kinase-3 beta in rat hippocampal neurons. 859 47

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

According to the amyloid hypothesis for the pathogenesis of Alzheimer disease, beta-amyloid peptide (betaA) directly affects neurons, leading to neurodegeneration and tau phosphorylation. In rat hippocampal culture, betaA exposure activates tau protein kinase I/glycogen synthase kinase 3beta (TPKI/GSK-3beta), which phosphorylates tau protein into Alzheimer disease-like forms, resulting in neuronal death. To elucidate the mechanism of betaA-induced neuronal death, we searched for substrates of TPKI/GSK-3beta in a two-hybrid system and identified pyruvate dehydrogenase (PDH), which converts pyruvate to acetyl-CoA in mitochondria. PDH was phosphorylated and inactivated by TPKI/GSK-3beta in vitro and also in betaA-treated hippocampal cultures, resulting in mitochondrial dysfunction, which would contribute to neuronal death. In cholinergic neurons, betaA impaired acetylcholine synthesis without affecting choline acetyltransferase activity, which suggests that PDH is inactivated by betaA-induced TPKI/GSK-3beta. Thus, TPKI/GSK-3beta regulates PDH and participates in energy metabolism and acetylcholine synthesis. These results suggest that TPKI/GSK-3beta plays a key role in the pathogenesis of Alzheimer disease.
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PMID:Regulation of mitochondrial pyruvate dehydrogenase activity by tau protein kinase I/glycogen synthase kinase 3beta in brain. 861 Jan 7

Mitogenic stimulation of T-lymphocytes causes a rapid activation or protein synthesis, which reflects in part increased expression of many translation components. Their levels, however, rise more slowly than the rate of protein synthesis, indicating an enhancement of the efficiency of their utilization. Initiation factor eIF2B catalyzes a key regulatory step in the initiation of translation, and we have therefore studied its activity following T-cell activation. eIF2B activity rises quickly, increasing as early as 5 min after cell stimulation. This initial phase is followed by an additional slow but substantial increase in eIF2B activity. The level of eIF2B subunits did not change over the initial rapid phase but did increase at later time points. Northern analysis revealed that levels of eIF2B mRNA only rose during the later phase. The rapid activation of EIF2B following mitogenic stimulation of T-cells is therefore mediated by factors other than its own concentration. The largest (epsilon) subunit of eIF2B is a substrate for glycogen synthase kinase-3 (GSK-3), the activity of which rapidly decreases following T-cell activation. Since phosphorylation of eIF2B by GSK-3 appears to inhibit nucleotide exchange in vitro, this provides a potential mechanism by which eIF2B may be activated.
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PMID:T-cell activation leads to rapid stimulation of translation initiation factor eIF2B and inactivation of glycogen synthase kinase-3. 862 96

To investigate the cellular mechanisms regulating neurofilament-heavy subunit (NF-H) side-arm phosphorylation, we studied the ability of three putative neurofilament kinases, glycogen synthase kinase-3 (GSK-3)alpha, GSK-3 beta, and cyclin-dependent kinase-5 (cdk-5), to phosphorylate NF-H in transfected cells. We analysed NF-H phosphorylation by using a panel of phosphorylation-dependent antibodies and also by monitoring the electrophoretic mobility of the transfected NF-H on sodium dodecyl sulphate-polyacrylamide gel electrophoresis because this is known to be affected by side-arm phosphorylation. Our results demonstrate that whereas GSK-3 alpha, GSK-3 beta, and cdk-5 will all phosphorylate NF-H, they generate different antibody reactivity profiles. GSK-3 alpha and GSK-3 beta induce a partial retardation of a proportion of the transfected NF-H, but only cdk-5 alters the rate of electrophoretic migration to that of NF-H from brain. We conclude that cdk-5 and GSK-3 phosphorylate different residues or sets of residues within NF-H sidearm in cells. We further show that cdk-5 is active in both the CNS and the PNS but that this activity is not dependent on expression of its activator, p35. This suggests that there are other activators of cdk-5.
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PMID:Differential cellular phosphorylation of neurofilament heavy side-arms by glycogen synthase kinase-3 and cyclin-dependent kinase-5. 862 28

The paired helical filaments (PHF) found in the brain of patients with Alzheimer disease (AD) are composed primarily of the microtubule-associated protein tau. Six isoforms of tau have been recognized and all are present in a hyperphosphorylated state in PHF. It is not known whether all tau isoforms serve equally well as substrates for various kinases. In this study we have compared the phosphorylation of human tau isoforms containing three microtubule-binding repeats and zero (tau 3), one (tau 3S), or two (tau 3L) N-terminal inserts. Four kinases (A-kinase, CK-1, CaM kinase II, GSK-3) were used for this purpose. With A-kinase, CK-1, and CaM kinase II the extent of phosphorylation was tau 3L > tau 3S > tau 3. With GSK-3 it was tau 3L approximately = tau 3S > tau 3. Tau 3 was a poor substrate for either CaM kinase II or CK-1, 32P incorporation being only 5 and 11%, respectively, of that observed by these kinases when tau 3L was the substrate. After prephosphorylation of the three tau isoforms by A-kinase, a subsequent phosphorylation by GSK-3 was stimulated several fold over tau that was not prephosphorylated. Under these conditions the extent of 32P incorporation was tau 3L > tau 3S > tau 3. Both CK-1 and GSK-3 phosphorylated ser 396 more rapidly in tau 3L compared to tau 3 or tau 3S. Our results suggest that (1) the presence of N-terminal inserts in tau isoforms are important structural determinants that modulate the specificity of several kinases; (2) the different tau isoforms may be present at different states of phosphorylation in PHF.
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PMID:Differential phosphorylation of human tau isoforms containing three repeats by several protein kinases. 863 36

PHF-tau, which is phosphorylated at 10 Ser/Thr-Pro and 11 non-Ser/Thr-Pro sites, is unable to promote microtubule assembly. Phosphorylation of the non-Ser/Thr-Pro site, Ser-262, is reported to be primarily responsible for this. The identities of kinase(s) responsible for Ser-262 phosphorylation are still to be clarified. In this study we have used the monoclonal antibody 12E8, which recognizes P-Ser-262 and P-Ser-356 on tau, to survey different kinases for their abilities to phosphorylate Ser-262 on human tau 3L (tau410). In decreasing order of effectiveness we found that Ser-262 and Ser-356 phosphorylation can be catalyzed by CaM kinase II >> C-kinase >> GSK-3 approximately = A-kinase >> CK-1. CaM kinase II and C-kinase were shown to phosphorylate both Ser-262 and Ser-356. The binding of tau to taxol-stabilized microtubules was decreased by 35 and 42% after phosphorylation by CaM kinase II and C-kinase, respectively. Of the fraction of tau that bound to microtubules, about 50% was phosphorylated at Ser-262 and Ser-356. These results suggest that Ser-262 and Ser-356 are very good substrates for CaM kinase II but their phosphorylations are not sufficient to achieve maximal inhibition of tau binding to microtubules.
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PMID:Calcium/calmodulin-dependent protein kinase II phosphorylates tau at Ser-262 but only partially inhibits its binding to microtubules. 867 37

Of 21 phosphorylation sites identified in PHF-tau 11 are on ser/thr-X motifs and are probably phosphorylated by non-proline-dependent protein kinases (non-PDPKs). The identities of the non-PDPKs and how they interact to hyperphosphorylate PHF-tau are still unclear. In a previous study we have shown that the rate of phosphorylation of human tau 39 by a PDPK (GSK-3) was increased several fold if tau were first prephosphorylated by non-PDPKs (Singh et al., FEBS Lett 358: 267-272, 1995). In this study we have examined how the specificity of a non-PDPK for different sites on human tau 39 is modulated when tau is prephosphorylated by other non-PDPKs (A-kinase, C-kinase, CK-1, CaM kinase II) as well as a PDPK (GSK-3). We found that the rate of phosphorylation of tau 39 by a non-PDPK can be stimulated if tau were first prephosphorylated by other non-PDPKs. Of the four non-PDPKs only CK-1 can phosphorylate sites (thr 231, ser 396, ser 404) known to be present in PHF-tau. Further, these sites were phosphorylated more rapidly and to a greater extent by CK-1 if tau 39 were first prephosphorylated by A-kinase, CaM kinase II or GSK-3. These results suggest that the site specificities of the non-PDPKs that participate in PHF-tau hyperphosphorylation can be modulated at the substrate level by the phosphorylation state of tau.
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PMID:Non-proline-dependent protein kinases phosphorylate several sites found in tau from Alzheimer disease brain. 871 28

We examined whether extracellular signals regulate glycogen synthase kinase-3 (GSK-3) activity through tyrosine dephosphorylation of GSK-3. In resting Chinese hamster ovary cells overexpressing the human insulin receptor (CHO-IR cells), GSK-3 was tyrosine-phosphorylated and active. Insulin and 12-0-tetradecanoylphorbol 13-acetate (TPA) induced inactivation and tyrosine dephosphorylation of GSK-3. It is known that Ser-9 of GSK-3beta is phosphorylated in response to insulin and that the phosphorylation of this amino acid residue causes inactivation of GSK-3beta. However, the ectopically expressed GSK-3beta(delta9), in which the N-terminal nine amino acids of GSK-3beta were deleted, was still inactivated and tyrosine-dephosphorylated in response to insulin. Protein phosphatase 2A treatment partially reversed insulin-induced GSK-3beta inactivation, but did not change GSK-3beta(delta9) inactivation. In CHO-IR cells where protein kinase C was down-regulated, TPA neither inactivated nor tyrosine-dephosphorylated GSK-3. However, insulin inactivated and tyrosine-dephosphorylated GSK-3, although to a lesser degree than in the control cells. These results suggest that in addition to serine phosphorylation, tyrosine dephosphorylation of GSK-3 is also important for the regulation of GSK-3 activity in response to extracellular signals and that insulin regulates GSK-3 activity through both protein kinase C-dependent as well as protein kinase C-independent pathways.
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PMID:Tyrosine dephosphorylation of glycogen synthase kinase-3 is involved in its extracellular signal-dependent inactivation. 877 94

In these studies we expressed and characterized wild-type (WT) GSK-3 (glycogen synthase kinase-3) and its mutants, and examined their physiological effect on glycogen synthase activity. The GSK-3 mutants included mutation at serine-9 either to alanine (S9A) or glutamic acid (S9E) and an inactive mutant, K85,86MA. Expression of WT and the various mutants in a cell-free system indicated that S9A and S9E exhibit increased kinase activity as compared with WT. Subsequently, 293 cells were transiently transfected with WT GSK-3 and mutants. Cells expressing the S9A mutant exhibited higher kinase activity (2.6-fold of control cells) as compared with cells expressing WT and S9E (1.8- and 2.0-fold, respectively, of control cells). Combined, these results suggest serine-9 as a key regulatory site of GSK-3 inactivation, and indicate that glutamic acid cannot mimic the function of the phosphorylated residue. The GSK-3-expressing cell system enabled us to examine whether GSK-3 can induce changes in the endogenous glycogen synthase activity. A decrease in glycogen synthase activity (50%) was observed in cells expressing the S9A mutant. Similarly, glycogen synthase activity was suppressed in cells expressing WT and the S9E mutant (20-30%, respectively). These studies indicate that activation of GSK-3 is sufficient to inhibit glycogen synthase in intact cells, and provide evidence supporting a physiological role for GSK-3 in regulating glycogen synthase and glycogen metabolism.
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PMID:Expression and characterization of glycogen synthase kinase-3 mutants and their effect on glycogen synthase activity in intact cells. 881 81


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