EC:2.7.11.1 - FACTA Search

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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)

Exposure of NIH 3T3 cells to 375 mM ethanol at 37 degrees C for 20 min could induce a rapid increase in the protein level and cellular activity of oncogenic proline-directed protein kinase FA/glycogen synthase kinase-3 alpha (PDPK FA/GSK-3 alpha), up to approximately 300% of the control level, in a time- and concentration-dependent manner. The maximal inductive effect on PDPK FA/GSK-3 alpha also occurred within 40 min when cells were treated with only 100 mM ethanol. Similarly, exposure of NIH 3T3 cells to 100 microM cadmium for 2 h could induce a rapid increase in the protein level and cellular activity of PDPK FA/GSK-3 alpha, up to approximately 250% of the control level, in a time- and concentration-dependent manner. The maximal inductive effect on this kinase reached within 3 h when cells were treated with only 50 microM cadmium. The results demonstrate that PDPK FA/GSK-3 alpha may not represent a constitutively active/mitogen-inactivated protein kinase as previously conceived. Taken together with the previous report that PDPK FA/GSK-3 alpha is a heat-inducible protein kinase, the results further demonstrate that PDPK FA/GSK-3 alpha may represent a typical cellular stresses-inducible protein kinase subject to early induction by heat, ethanol and cadmium.
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PMID:Acute inductive effects on oncogenic proline-directed protein kinase FA/GSK-3 alpha in NIH 3T3 cells by ethanol and cadmium. 961 69

Oncoprotein 18 or stathmin was isolated from bovine brain, characterized and novel features of its function as a microtubule depolymerizing factor were tested. The effect of phosphorylation of stathmin on its function as a microtubule depolymerizing factor has been tested in vitro. Five different protein kinases, protein kinase A, MAP kinase, cdc2 kinase, glycogen synthase kinase 3 and casein kinase 2, were used to modify stathmin, since it is known that these kinases could phosphorylate several residues that are modified in vivo and could have important roles in stathmin function. The residues phosphorylated in vitro by the different protein kinases were identified and in some cases they correspond to those modified in vivo. Recombinant unphosphorylated stathmin and native stathmin, which was previously dephosphorylated with alkaline phosphatase, showed similar microtubule depolymerizing activity. This activity is higher than that of stathmin phosphorylated by protein kinase A, MAP kinase or cdc 2 kinase, whereas phosphorylation of the protein with casein kinase 2 or glycogen synthase kinase 3 resulted in a slight increase of the depolymerizing activity.
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PMID:Phosphorylation of stathmin modulates its function as a microtubule depolymerizing factor. 965 97

Heat shock factor 1 (HSF1) is the key transcriptional regulator of the heat shock genes that protect cells from environmental stress. However, because heat shock gene expression is deleterious to growth and development, we have examined mechanisms for HSF1 repression at growth temperatures, focusing on the role of phosphorylation. Mitogen-activated protein kinases (MAPKs) of the ERK family phosphorylate HSF1 and represses transcriptional function. The mechanism of repression involves initial phosphorylation by MAP kinase on serine 307, which primes HSF1 for secondary phosphorylation by glycogen synthase kinase 3 on a key residue in repression (serine 303). In vivo expression of glycogen synthase kinase 3 alpha or beta thus represses HSF1 through phosphorylation of serine 303. HSF1 is also phosphorylated by MAPK in vitro on a second residue (serine 363) adjacent to activation domain 1, and this residue is additionally phosphorylated by protein kinase C. In vivo, HSF1 is repressed through phosphorylation of this residue by protein kinase Calpha or -zeta but not MAPK. Regulation at 37 degrees C, therefore, involves the action of three protein kinase cascades that repress HSF1 through phosphorylation of serine residues 303, 307, and 363 and may promote growth by suppressing the heat shock response.
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PMID:Transcriptional activity of heat shock factor 1 at 37 degrees C is repressed through phosphorylation on two distinct serine residues by glycogen synthase kinase 3 and protein kinases Calpha and Czeta. 966 Aug 38

Glycogen is the principal storage form of glucose in animal cells. It accumulates in electron-dense cytoplasmic granules and is synthesized by glycogen synthase (GS), the rate-limiting enzyme of glycogen deposition. Glycogen synthase kinase-3 (GSK-3) is a protein kinase that phosphorylates GS. Two nearly identical forms of GSK-3 exist: GSK-3 alpha and GSK-3 beta. Both are constitutively active in resting cells and their activity can be modulated by hormones and growth factors. GSK-3 is implicated in the regulation of many physiological responses in mammalian cells by phosphorylating substrates including neuronal cell adhesion molecule, neurofilaments, synapsin I, and tau. Recent observations point to functions for glycogen and glycogen metabolism in the nucleus. GSK-3 phosphorylates several transcription factors, and we have recently shown that it modifies the major nuclear pore protein p62. It also regulates PK1, a protein kinase required for maintaining the interphase state and for DNA replication in cycling Xenopus egg extracts. Recently, glycogen was shown to be required for nuclear reformation in vitro using ovulated Xenopus laevis egg lysates. Because neither glycogen nor GSK-3 has been localized to the nuclear envelope or intranuclear sites, glycogen and GSK-3 activites were measured in rat liver nuclei and nuclear reformation extracts. Significant quantities of glycogen-like material co-purified with the rat-liver nuclear envelope. GSK-3 is also highly enriched in the glycogen pellet of egg extracts of Xenopus that is required for nuclear assembly in vitro. Based on the finding that enzymes of glycogen metabolism copurify with glycogen, we propose that glycogen may serve a structural role as a scaffold for nuclear assembly and sequestration of critical kinases and phosphatases in the nucleus.
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PMID:Nuclear glycogen and glycogen synthase kinase 3. 971 12

Integrin-linked kinase (ILK) is a focal adhesion serine/threonine protein kinase that is emerging as a key signaling protein functioning at one of the early convergence points of integrin- and growth factor-signaling pathways. ILK binds to PINCH through the N-terminal ankyrin (ANK) repeat domain and the PINCH binding is crucial for focal adhesion localization of ILK. The ILK-PINCH interaction also connects ILK to Nck-2, an SH2-SH3-containing adaptor protein that interacts with components of growth factor and small GTPase signaling pathways. The kinase activity of ILK is regulated by both cell adhesion and growth factors in a phosphoinositide 3-kinase (PI3K)-dependent manner. ILK phosphorylates downstream targets such as protein kinase B (PKB, also known as Akt) and glycogen synthase kinase 3 (GSK-3) and regulates their activities. Overexpression of ILK in epithelial cells leads to striking morphological changes mimicking epithelial-mesenchymal transition, including upregulation of integrin-mediated fibronectin matrix assembly and downregulation of cell-cell adhesions. Furthermore, ILK regulates nuclear translocation of (beta)-catenin and gene expression, and promotes cell cycle progression and tumor formation. Recent genetic studies in Drosophila melanogaster and Caenorhabditis elegans have shown that lack of expression of ILK or PINCH results in phenotypes resembling those of integrin-null mutants, which demonstrates that ILK and PINCH are indispensable for integrin function during embryonic development.
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PMID:Integrin-linked kinase and PINCH: partners in regulation of cell-extracellular matrix interaction and signal transduction. 1057 98

In insulin-sensitive L6 myocytes, insulin stimulated glycogen synthesis in a dose-dependent manner and lithium further stimulated glycogen synthesis at all insulin concentrations. Lithium alone at 20 mM stimulated glycogen synthesis to the degree similar to the maximal insulin response. Effects of lithium and insulin were fully additive for both glycogen synthesis and glycogen synthase activity. In L6 myocytes, insulin increased phosphorylation of Akt1 and glycogen synthase kinase-3 alpha and beta (GSK-3 alpha and beta), resulting in its activation and inactivation, respectively. Unlike insulin, lithium directly inhibited GSK-3 (both alpha and beta) without affecting phosphorylation of GSK-3. Moreover, lithium in vitro could further inhibit enzyme activity of GSK-3 (both alpha and beta) that was isolated from insulin-stimulated cells (thus already phosphorylated and inactivated by insulin). In summary, insulin increases glycogen synthesis by the Akt1/GSK-3/glycogen synthase pathway, but lithium increases glycogen synthesis by direct inhibition of GSK-3 in L6 myocytes. Inhibitory effects of lithium and insulin on GSK-3 (both alpha and beta) were additive, which may account, at least in part, for their additive effects on glycogen synthase activity and glycogen synthesis in L6 myocytes.
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PMID:Effects of lithium and insulin on glycogen synthesis in L6 myocytes: additive effects on inactivation of glycogen synthase kinase-3. 1091 20

Until recently, protein kinase GSK3 (glycogen synthase kinase 3), an essential component for cell-fate specification, had been considered a constitutively activated enzyme subject to developmentally regulated inhibition through hierarchical, linear signaling paths. Data from various systems now indicate more complex scenarios involving activating as well as inhibiting circuits, and the differential formation of multi-protein complexes that antagonistically affect GSK3 function.
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PMID:GSK3, a master switch regulating cell-fate specification and tumorigenesis. 1098 Apr 28

Glycogen synthase kinase 3 (GSK-3) is implicated in multiple biological processes including metabolism, gene expression, cell fate determination, proliferation, and survival. GSK-3 activity is inhibited through phosphorylation of serine 21 in GSK-3 alpha and serine 9 in GSK-3 beta. These serine residues of GSK-3 have been previously identified as targets of protein kinase B (PKB/Akt), a serine/threonine kinase located downstream of phosphatidylinositol 3-kinase. Here, we show that serine 21 in GSK-3 alpha and serine 9 in GSK-3 beta are also physiological substrates of cAMP-dependent protein kinase A. Protein kinase A physically associates with, phosphorylates, and inactivates both isoforms of GSK-3. The results indicate that depending on the stimulatory context, the activity of GSK-3 can be modulated either by growth factors that work through the phosphatidylinositol 3-kinase-protein kinase B cascade or by hormonal stimulation of G protein-coupled receptors that link to changes in intracellular cAMP levels.
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PMID:Phosphorylation and inactivation of glycogen synthase kinase 3 by protein kinase A. 1103 10

Human glycogen synthase kinase-3 alpha (GSK-3 alpha) is a serine/threonine kinase that phosphorylates a variety of cytoplasmic and nuclear proteins. It also phosphorylates components of the neuronal cytoskeleton including tau and neurofilament heavy chain. Hyperphosphorylated tau is found in neurofibrillary tangles, a hallmark of Alzheimer's disease and aberrant phosphorylation of neurofilament heavy chain is observed in motor neuron disease. Alterations in GSK-3 alpha activity may therefore contribute to the disease process in these disorders. As a first step to understand the transcriptional regulation of GSK-3 alpha, a 2-kb (p-1751/+243) DNA fragment upstream of the GSK-3 alpha initiation codon was obtained from a YAC clone and characterised. Using primer extension assays, a putative transcriptional start site was located to a G nucleotide 244 bp upstream of the ATG codon. Several transcription factor-binding sites were identified on the promoter region, but no TATA-like element was located close to the start site. Deletion mutants of the 2-kb DNA fragment were generated and fused to a promoterless chloramphenicol acetyltransferase (CAT) gene. Transfection study in a neuroblastoma cell line revealed the 1-kb (p-719/+243) fragment carried strong promoter activity, while the 2-kb construct that contains an Alu-like sequence was only 50% active.
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PMID:Molecular cloning and expression analysis of human glycogen synthase kinase-3 alpha promoter. 1111 43

The substrate specificity of glycogen synthase kinase 3 (GSK3) is unusual in that efficient phosphorylation only occurs if another phosphoserine or phosphothreonine residue is already present four residues C-terminal to the site of GSK3 phosphorylation. One such substrate is the epsilon-subunit of rat eukaryotic protein-synthesis initiation factor 2B (eIF2Bepsilon), which is inhibited by the GSK3-catalysed phosphorylation of Ser(535). There is evidence that GSK3 is only able to phosphorylate eIF2Bepsilon at Ser(535) if Ser(539) is already phosphorylated by another protein kinase. However, no protein kinases capable of phosphorylating Ser(539) have so far been identified. Here we show that Ser(539) of eIF2Bepsilon, which is followed by proline, is phosphorylated specifically by two isoforms of dual-specificity tyrosine phosphorylated and regulated kinase (DYRK2 and DYRK1A), but only weakly or not at all by other 'proline-directed' protein kinases tested. We also establish that phosphorylation of Ser(539) permits GSK3 to phosphorylate Ser(535) in vitro and that eIF2Bepsilon is highly phosphorylated at Ser(539) in vivo. The DYRK isoforms also phosphorylate human microtubule-associated protein tau at Thr(212) in vitro, a residue that is phosphorylated in foetal tau and hyperphosphorylated in filamentous tau from Alzheimer's-disease brain. Phosphorylation of Thr(212) primes tau for phosphorylation by GSK3 at Ser(208) in vitro, suggesting a more general role for DYRK isoforms in priming phosphorylation of GSK3 substrates.
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PMID:The kinase DYRK phosphorylates protein-synthesis initiation factor eIF2Bepsilon at Ser539 and the microtubule-associated protein tau at Thr212: potential role for DYRK as a glycogen synthase kinase 3-priming kinase. 1131 Nov 21

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