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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

ATP citrate-lyase (CL), acetyl-CoA carboxylase (ACC) and glycogen synthase kinase-3 beta (GSK-3 beta) levels were measured in cytosol from 3T3-L1 cells during differentiation from fibroblasts into fat-cells. Protein levels were estimated from immunoblots using specific antisera. Cytosol from confluent cells contain significant amounts of GSK-3 beta, which fell during differentiation of these cells into adipocytes. CL from confluent cells was found to be mostly in the form of a single protein band of apparent mass 110 kDa. Levels of CL and ACC increased during cell differentiation into adipocytes. During the first 3 days of differentiation, CL migration changed, and it was expressed as a complex of protein bands of apparent mass 110 kDa, 113 kDa and 115 kDa. At later stages of differentiation, when these cells had assumed the phenotype of fat-cells, they expressed CL mainly as protein bands of 110 and 113 kDa. When samples containing these bands were treated with alkaline phosphatase, the 113 kDa protein band collapsed into the 110 kDa species. This suggests that the slower-migrating species of CL is a higher-order phosphorylation state of the same protein. Furthermore, when purified CL, mostly expressed as the 110 kDa species, was phosphorylated with cyclic AMP-dependent protein kinase alone or together with GSK-3 and resolved by SDS/PAGE, the phosphorylated CL now migrated more slowly as the 113 kDa and 115 kDa forms. CL phosphorylation was hormone-regulated, since, in samples from fat-cells that had the complex two-band pattern, when cultured in medium without serum or hormones, CL migration reverted to a single band of 110 kDa, similar to confluent cells. Treatment of these 'down-regulated' cells with insulin rapidly induced substantial amounts of the 113 kDa species, with a concomitant decrease in the 110 kDa species.
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PMID:ATP citrate-lyase and glycogen synthase kinase-3 beta in 3T3-L1 cells during differentiation into adipocytes. 791 58

We have previously shown that insulin causes inactivation of glycogen synthase kinase-3 (GSK-3) in Chinese hamster ovary cells over-expressing the human insulin receptor (CHO.T cells). We now show that serum and phorbol ester also cause rapid inactivation of GSK-3, both in CHO.T cells and in the nontransfected parental cell line, CHO.K1 cells. Rapamycin was without effect on the inactivation of GSK-3 by insulin, serum or phorbol ester, indicating that the p70 S6 kinase pathway is not involved. In contrast, wortmannin, a potent inhibitor of phosphatidylinositol 3-kinase, blocked the effects of both insulin and serum on GSK-3 activity, and also substantially reduced the activation of both p90 S6 kinase (by insulin) and mitogen-activated protein (MAP) kinase (by insulin and serum). These findings imply (i) that GSK-3 activity is regulated by a cascade involving MAP kinase and p90 S6 kinase and (ii) that wortmannin affects an early step in the MAP kinase pathway. One can infer from this that GSK-3 may be an important regulatory enzyme for the control of several biosynthetic pathways, key enzymes in which are regulated by GSK-3-mediated phosphorylation. Wortmannin had a smaller effect on the activation of MAP kinase by phorbol ester, indicating that phorbol esters may stimulate MAP kinase by a different or additional mechanism to that employed by insulin or serum. Wortmannin had very little effect on the inactivation of GSK-3 by phorbol ester: possible reasons for this are discussed.
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PMID:Wortmannin inhibits the effects of insulin and serum on the activities of glycogen synthase kinase-3 and mitogen-activated protein kinase. 794 34

Inhibitor-2 (I-2) inhibits the free catalytic subunit of type 1 phosphatase (CS1) and controls the cyclic inactivation/activation of CS1 in the ATP-Mg-dependent protein phosphatase complex. We report here the effect of mutations on these two properties of I-2. Substitution of Thr-72 with Ala, Asp, or Glu generated complexes with CS1 that could not be activated. Mutation of Ser-86 did not affect activation by glycogen synthase kinase-3 (GSK-3) alone but impaired synergistic activation by casein kinase II and GSK-3. Mutations in the region between Thr-72 and Ser-86 did not alter the inhibitory potency of I-2 but prevented complete inactivation of CS1. A mutant without the 35 NH2-terminal residues exhibited an IC50 for CS1 200-fold higher than that of wild-type I-2. However, it formed an inactive phosphatase complex with CS1, which was activated by GSK-3. A mutant with the 59 COOH-terminal residues deleted retained full inhibitory activity and formed an inactive complex that could not be activated by GSK-3. We conclude that the NH2-terminal region of I-2 is involved in inhibition, that the sequence between Thr-72 and Ser-86 is necessary for the conversion of CS1 from an active to an inactive conformation, and that the COOH terminus is required for activation by GSK-3. Thus, different functional domains of I-2 may interact with distinct regions of CS1.
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PMID:Domains of phosphatase inhibitor-2 involved in the control of the ATP-Mg-dependent protein phosphatase. 796 54

To identify consensus sequence motif for a new family of protein kinase termed autophosphorylation-dependent protein serine/threonine kinase (auto-kinase), we have tested several synthetic peptides. The well established protein serine/threonine kinases such as cAMP-dependent protein kinase, Ca2+/calmodulin-dependent protein kinase (CaM-kinase), and protein kinase C were found to be inactive toward phosphorylation of syntide-3 (RPRPASVPPSPSLSRHA), which turned out to be an excellent substrate only for auto-kinase, indicating that syntide-3 is a specific substrate for auto-kinase. Modification of syntide-3 to become RPRPASVPPS/T did not affect the activity of auto-kinase. By contrast, autokinase became rather or almost inactive when the peptide was modified to become RPRPASVPPA/G/F/K/R/D/E/Y, indicating that amino acid number 10 in syntide-3 is crucial to the sequence motif recognized by auto-kinase. Phosphorylation of myelin basic protein (MBP) by autokinase revealed that auto-kinase predominantly phosphorylates MBP on one particular site with RT-T(p)HYGS as the phosphorylation site sequence, which could not be phosphorylated by any other reported MBP kinases including cAMP-dependent protein kinase, CaM-kinase, protein kinase C, mitogen-activated protein kinase, and kinase FA/GSK-3. Taken together, the results provide initial evidence that -Arg-X-(X)-Ser/Thr-X3-Ser/Thr- may represent a unique consensus sequence motif specifically recognized by autophosphorylation-dependent protein kinase, a new family of multi-substrate/multifunctional protein serine/threonine kinase.
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PMID:Identification of -R-X-(X)-S/T-X3-S/T- as consensus sequence motif for autophosphorylation-dependent protein kinase. 785 32

Glycogen synthase kinase 3 (GSK-3) is involved in the regulation of several metabolic enzymes and transcription factors in response to extracellular signals. Here we report the use of a synthetic peptide derived from the sequence of the cyclic AMP responsive element binding protein (CREB) as a specific substrate for GSK-3 isoforms. The 13-amino acid peptide, KRREILSRRPSYR, was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase (PKA) and purified on a C18 cartridge. Phosphorylation of the COOH-terminal serine of the peptide by PKA creates a phosphorylation site for GSK-3 since GSK-3 recognizes the consensus motif -S-X-X-X-S(P)-. Although the COOH-terminal serine of the peptide can be phosphorylated by PKA and several other kinases, the phospho-CREB peptide is specific for GSK-3 with Kms of 140 and 200 microM for GSK-3 alpha and GSK-3 beta isoforms, respectively. Using the phospho-CREB peptide, we have successfully purified GSK-3 activity from rabbit skeletal muscle and Escherichia coli cells transformed with a GSK-3 expression vector. The assay described provides a convenient and specific determination of GSK-3 activity.
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PMID:Use of a synthetic peptide as a selective substrate for glycogen synthase kinase 3. 797 84

Glycogen synthase kinase-3 (GSK-3), a protein-serine kinase implicated in cell-fate determination and differentiation, phosphorylates several regulatory proteins that are activated by dephosphorylation in response to hormones or growth factors. GSK-3 beta is phosphorylated in vitro at serine 9 by p70 S6 kinase and p90rsk-1, resulting in its inhibition [Sutherland, Leighton, and Cohen (1993) Biochem. J. 296, 15-19]. Using HeLa cells expressing GSK-3 beta or a mutant containing alanine at residue 9, we demonstrate that serine 9 is modified in intact cells and is targeted specifically by p90rsk-1, and that phosphorylation leads to loss of activity. Since p90rsk-1 is directly activated by mitogen-activated protein kinases, agonists of this pathway, such as insulin, repress GSK-3 function.
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PMID:Mitogen inactivation of glycogen synthase kinase-3 beta in intact cells via serine 9 phosphorylation. 798 Apr 35

Addition of a nitrogen-source to glucose-repressed, nitrogen-starved G0 cells of the yeast Saccharomyces cerevisiae in the presence of a fermentable carbon source induces growth and causes within a few minutes a five-fold, protein-synthesis-independent increase in the activity of trehalase. Nitrogen-activated trehalase could be deactivated in vitro by alkaline phosphatase treatment, supporting the idea that the activation is triggered by phosphorylation. Yeast strains containing only one of the three TPK genes (which encode the catalytic subunit of cAMP-dependent protein kinase) showed different degrees of nitrogen-induced trehalase activation. The order of effectiveness was different from that previously reported for glucose-induced activation of trehalase in glucose-depressed yeast cells. Further reduction of TPK-encoded catalytic subunit activity by partially inactivating point mutations in the remaining TPK gene further diminished nitrogen-induced trehalase activation, while deletion of the BCY1 gene (which encodes the regulatory subunit) in the same strains resulted in an increase in the extent of activation. Deletion of the RAS genes in such a tpkw1 bcy1 strain had no effect. These results are consistent with mediation of nitrogen-induced trehalase activation by the free catalytic subunits alone. They support our previous conclusion that cAMP does not act as second messenger in this nitrogen-induced activation process and our suggestion that a novel nitrogen-induced signaling pathway integrates with the cAMP pathway at the level of the free catalytic subunits of protein kinase A. Western blot experiments showed that the differences in the extent of trehalase activation were not due to differences in trehalase expression. On the other hand, we cannot completely exclude that protein kinase A influences the nitrogen-induced activation mechanism itself rather than acting directly on trehalase. However, any such alternative explanation requires the existence of an additional, yet unknown, mechanism for activation of trehalase besides the well-established regulation by protein kinase A.
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PMID:Activation of trehalase during growth induction by nitrogen sources in the yeast Saccharomyces cerevisiae depends on the free catalytic subunits of cAMP-dependent protein kinase, but not on functional Ras proteins. 799 5

The major phosphorylation site for both casein kinase-2 (CK2) and casein kinase-1 (CK1) in protein phosphatase-1 (PP-1) inhibitor-2 (I-2) is Ser86. Minor phosphorylation sites affected by either CK2 or CK1 are Ser120/Ser121 and Ser174, respectively. A synthetic peptide of 25 amino acids encompassing residues 67-93 of I-2 is phosphorylated by either CK2 or CK1 at its seryl residue corresponding to Ser86 with higher Vmax and Km values similar to those of the intact protein (9 vs 7.2 microM and 14.2 vs 5.3 microM with CK2 and CK1, respectively). No detectable phosphorylation of this peptide which also includes the glycogen synthase kinase-3 (GSK-3) site (Thr72), could be observed with either GSK-3 or p34cdc2 kinase whether or not its seryl residue equivalent to Ser86 had been previously phosphorylated by CK2. Shorter derivatives of I-2(67-93), encompassing residues 72-93 and 78-93, are also readily phosphorylated by both CK1 and CK2, with phosphorylation efficiencies similar to those of the parent peptide. A synthetic heptadecapeptide reproducing the phosphoacceptor site around Ser120/Ser121 is phosphorylated by CK2, but not to any detectable extent by CK1, with a Km value fivefold higher than that of the corresponding pentadecapeptide including Ser86 (78-93). A synthetic pentadecapeptide (166-180) reproducing the phosphoacceptor site around Ser174 is phosphorylated by CK1 less efficiently than the pentadecapeptide including its main phosphorylation site (78-93) (Km 280 microM vs 33 microM). This peptide is readily phosphorylated by CK2 as well, although it lacks the canonical consensus sequence for CK2 and its Ser174 is almost unaffected by CK2 in intact I-2. These data provide the clear-cut demonstration that the consensus sequence with N-terminal prephosphorylated residue(s), SerP/ThrP-Xaa-Xaa-Ser/Thr, [Flotow, H., Graves, P. R., Wang, A., Fiol, C. J., Roeske, R. W. & Roach, P. J. (1990) J. Biol. Chem. 265, 14264-14269; Meggio, F., Perich, J. W., Reynolds, E. C. & Pinna, L. A. (1991) FEBS Lett. 283, 303-306] is not always required to achieve efficient and high-affinity phosphorylation by CK1. They also show that the specificity determinants for I-2 phosphorylation by either CK2 or CK1, but not by GSK3, are entirely grounded on local structural features of the phosphoacceptor site, being only marginally affected by the overall structure of I-2.
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PMID:Phosphorylation of synthetic fragments of inhibitor-2 of protein phosphatase-1 by casein kinase-1 and -2. Evidence that phosphorylated residues are not strictly required for efficient targeting by casein kinase-1. 805 35

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

Previously, we identified protein kinase FA/glycogen synthase kinase-3 (GSK-3) as a microtubule-associated protein tau kinase that can incorporate 4 mol of phosphates into 1 mol of tau protein and cause its electrophoretic mobility shift in sodium dodecyl sulfate gels, a unique property characteristic of paired helical filament-associated pathological tau (PHF-tau) in Alzheimer's disease brains. In this report, we identified TPPKS(p)PSAAK and SPVVSGDTS(p)PR as two phosphorylation site sequences phosphorylated by kinase FA/GSK-3 in tau using peptide sequence analysis and sequential manual Edman degradation for radiosequencing. When mapping with human brain tau sequence, we further identified Ser235-Pro and Ser404-Pro as the two major phosphorylation sites according to the numbering of the longest tau isoform. Ser235 and Ser404 have been reported as two of the major abnormal phosphorylation sites in PHF-tau. Taken together, the results provide initial evidence that protein kinase FA/GSK-3 may represent one of the Ser-Pro motif-directed tau kinases involved in the abnormal phosphorylation of pathological PHF-tau in Alzheimer's disease brain.
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PMID:Protein kinase FA/GSK-3 phosphorylates tau on Ser235-Pro and Ser404-Pro that are abnormally phosphorylated in Alzheimer's disease brain. 822 90


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