EC:2.7.11.1 - FACTA Search

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)

Parafusin, a cytosolic phosphoglycoprotein of M(r) 63,000, is dephosphorylated and rephosphorylated rapidly in a Ca(2+)-dependent manner upon stimulation of exocytosis in vivo in wild-type (wt) Paramecium. In contrast, the temperature-sensitive exocytosis mutant nd9, grown at the nonpermissive temperature (27 degrees C), does not exocytose or dephosphorylate parafusin upon stimulation in the presence of Ca2+; grown at the permissive temperature (18 degrees C), nd9 cells show a wt phenotype. Parafusin contains two types of phosphorylation sites: one where glucose 1-phosphate is added by an alpha-glucose-1-phosphate phosphotransferase and removed by a phosphodiesterase and one where phosphate from ATP is added directly to a serine residue by a protein kinase and removed by a phosphatase. We show here that, in cell fractions from wt Paramecium, both reactions can be carried out in vitro by using uridine(5'-[beta-[35S]thio])diphospho(1)-glucose (UDP[beta 35S]-Glc) and [gamma-32P]ATP, respectively. The characteristics of these pathways are different. Specifically, in the presence of Ca2+, the amount of UDP[beta 35S]-Glc label in parafusin is reduced. In contrast, identical labeling experiments with [gamma-32P]ATP show that Ca2+ enhances labeling of parafusin. Mg2+ had no appreciable effect on either labeling. Removal of the UDP[beta 35S]-Glc label on parafusin in the presence of Ca2+ correlates with the in vivo dephosphorylation seen upon exocytosis. Incubations with UDP[beta 35S]-Glc were then performed with homogenates and nd9 cell fractions grown at 27 degrees C under the ionic conditions used for wt cells. These labelings were not affected by Ca2+, in contrast to results from wt cells but in accord with those obtained earlier with nd9-27 mutant cells in vivo. Factors responsible for both dephosphorylation and Ca2+ sensitivity were found in the high-speed pellet (P2) in wt cells, suggesting that the putative phosphodiesterase is in this fraction and that the defect in the mutant nd9-27 residues in the Ca2+ activation of the phosphodiesterase. We conclude that the in vivo dephosphorylation of parafusin that occurs upon exocytosis is a dephosphoglucosylation due to removal of the alpha-glucose 1-phosphate and more generally that carbohydrates on cytoplasmic glycoproteins may be cyclically added and/or removed in response to extracellular stimuli.
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PMID:Carbohydrate cycling in signal transduction: parafusin, a phosphoglycoprotein and possible Ca(2+)-dependent transducer molecule in exocytosis in Paramecium. 133 6

The superoxide anion generation in Ehrlich ascites tumour (EAT) cells increased more than two-fold in the presence of the tumour promoter, tetradecanoyl phorbol myristate acetate (TPA). Epinephrine and dibutryl cAMP (Bt2 cAMP) inhibited in a dose-dependent manner, both basal and TPA-triggered superoxide generation in EAT cells. The kinetics of inhibition of superoxide generation showed a maximum inhibition between 30 and 40 min of preincubation with epinephrine or Bt2 cAMP of EAT cells and coincided with an increase in activity of a phosphoprotein phosphatase. In TPA-treated EAT cells, epinephrine or Bt2 cAMP increased the phosphatase activity in a dose-dependent manner. In vitro EGTA, EDTA and sodium fluoride inhibited phosphatase activity. Superoxide generation in response to TPA in Triton-permeabilized EAT cells was inhibited by inclusion of the phosphatase in the assay. Taken together, these results clearly suggest that the phosphatase activity in EAT cells develops as a result of protein kinase A (PKA) and protein kinase C (PKC)-mediated phosphorylation of the phosphatase which then mediates dephosphorylation of the PKC-triggered phosphorylation of proteins to inhibit respiratory burst. A cross-talk between PKA and PKC pathways negatively modulates superoxide generation in EAT cells.
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PMID:Mechanism of inhibition by cyclic AMP of protein kinase C-triggered respiratory burst in Ehrlich ascites tumour cells. 133 69

We have used myelin basic protein immobilized in sodium dodecyl sulfate-polyacrylamide gels to identify protein kinases after gel electrophoresis, followed by protein kinase reactions. This technique has permitted us to detect three protein kinases in serum-deprived cells transformed by p60src. On induction of cellular transformation by a temperature-sensitive v-src, a p87 protein kinase is activated within 30 min and remains activated in fully transformed cells. The p63 protein kinase is not fully activated until 24 h but remains activated in transformed cells. The commonly studied p42MBPK is rapidly activated within 30 min, and its kinase activity decreases significantly by 24 h, when the p63 enzyme is fully activated. The p42MBPK, as well as the p63 and p87 enzymes, are stimulated by transforming p60c-src mutants but not normal c-src or nonmyristylated p60c-src. In addition, the kinase activity of p63 enzyme, but not of p42MBPK, can be induced in okadaic acid-treated chicken embryo fibroblasts, indicating that phosphatase 2A and/or phosphatase 1 may be involved in the regulation of its activity. Additional data indicate that either p42MBPK or p63 activity correlates with the stimulation of the protein kinase p90RSK. Thus, there may be two independent pathways leading to the activation of the RSK gene product.
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PMID:Activation of protein serine/threonine kinases p42, p63, and p87 in Rous sarcoma virus-transformed cells: signal transduction/transformation-dependent MBP kinases. 133 88

At the early stages of development of the fresh water fish loach (Misgurnus fossilis) the resting membrane potential (Er) of cleaving cells oscillates periodically with an amplitude of 8-12 mV. Er oscillation correlates with the cell cycle and is accompanied by changes of K+ conductivity. Two types of K(+)-selective ionic channels with conductance of approximately 70 and 25 pS in symmetrical (150 mM KCl) solution were observed in the membrane of cleaving loach embryos. 'High' conductance and 'low' conductance channels were recorded in approximately 90% and 10% of patches investigated (n = 275), respectively? The activity of 'high' conductance channels was regulated by the application of pressure to the membrane, ie these channels were stretch-activated (SA). The activity of SA channels changes dramatically during the cell-cleavage cycle. At the beginning of interphase the probability of SA channels being in the open state (P0) was minimal, while at prometaphase the probability was increased 10-100-fold. Application of ATP to the cytoplasmic inside-out patches induced a reversible elevation of stretch sensitivity of the SA channels in 50% of the patches, while the non-hydrolyzable analogue of ATP was not effective. Combined application of ATP, cAMP and cAMP-dependent protein kinase (PK) induced a reversible elevation in the SA channel activity while inhibitors of PK prevented its activating effects. Phosphatase inhibitors prolonged the activating effect of PK on SA channels. We propose that oscillations of the resting potential during the cell-cleavage cycle arise due to modulation of SA channel sensitivity to stretch through cAMP-dependent phosphorylation.
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PMID:Regulation of potassium conductance in the cellular membrane at early embryogenesis. 134 88

The major neuropathology of Parkinson's disease (PD) is the degeneration of nigrostriatal dopamine (DA), resulting in a deficiency of DA, and of the enzyme tyrosine hydroxylase (TH), which catalyzes the synthesis of L-dopa. The symptomatic treatment of PD consists of replenishing DA by administering L-dopa, which is enzymatically converted to DA in the striatum. The increase of TH activity by modification of the enzyme leads to an increased synthesis of striatal L-dopa, and thereby replenishes the missing DA more efficiently. The activity of TH is increased by protein kinase-dependent phosphorylation of the enzyme or by inhibition of dephosphorylation with specific phosphatase inhibitors. Thus, modification of TH results in an activated form of the enzyme, which might provide a basis for developing new strategies in the treatment of PD. The extraneuronal enzyme, catechol-O-methyl transferase (COMT), inactivates catecholamines by O-methylation, and its inhibition leads to increased levels of striatal DA. The availability of selective and nontoxic COMT inhibitors makes it possible to assess their therapeutic role in treatment of PD. The intraneuronal enzymes, monoamine oxidase (MAO)-A and MAO-B, inactivate catecholamines and other biogenic amines, such as serotonin, by deamination. Inhibition of these enzyme activities leads to increased levels of striatal DA. The irreversible MAO-B inhibitor selegiline was shown to exert antiparkinsonian activity, especially in the early stages of parkinsonism. Selegiline also prevents the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced parkinsonism in MPTP-treated mice and monkeys. Its role in the prevention of the disease is under investigation in several clinical centers.
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PMID:The role of the regulatory enzymes of catecholamine synthesis in Parkinson's disease. 834 92

Type 1 protein phosphatases (PP-1) comprise a group of widely distributed enzymes that specifically dephosphorylate serine and threonine residues of certain phosphoproteins. They all contain an isoform of the same catalytic subunit, which has an extremely conserved primary structure. One of the properties of PP-1 that allows one to distinguish them from other serine/threonine protein phosphatases is their sensitivity to inhibition by two proteins, termed inhibitor 1 and inhibitor 2, or modulator. The latter protein can also form a 1:1 complex with the catalytic subunit that slowly inactivates upon incubation. This complex is reactivated in vitro by incubation with MgATP and protein kinase FA/GSK-3. In the cell the type 1 catalytic subunit is associated with noncatalytic subunits that determine the activity, the substrate specificity, and the subcellular location of the phosphatase. PP-1 plays an essential role in glycogen metabolism, calcium transport, muscle contraction, intracellular transport, protein synthesis, and cell division. The activity of PP-1 is regulated by hormones like insulin, glucagon, alpha- and beta-adrenergic agonists, glucocorticoids, and thyroid hormones.
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PMID:The structure, role, and regulation of type 1 protein phosphatases. 135 Feb 40

1. Carnivore red cells lose their Na/K pump capability as they develop from erythroblasts to reticulocytes to mature cells. They defend their fluid volume by utilizing the Ca/Na exchanger as a Na extrusion pump, the energy for which is ultimately derived from active Ca transport. 2. Swelling-induced [K-Cl] cotransport and shrinkage-induced Na/H exchange are regulated in a coordinated fashion in dog red cells. Circumstantial evidence points to a regulatory protein kinase-phosphatase system. 3. Dog red cells detect changes in their fluid volume, not by virtue of membrane distortion, but by alterations in the concentrations of cytoplasmic macromolecules induced by swelling or shrinkage.
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PMID:Volume-activated cation transport in dog red cells: detection and transduction of the volume stimulus. 135 24

Two cellular proteins of 36 and 63 kDa which bind the small T and middle T antigens of polyomavirus recently have been identified as the catalytic and regulatory subunits of the phosphoserine/threonine-specific type 2A protein phosphatase (PP2A). We report here the presence of phosphoseryl phosphatase activity associated with polyomavirus small T and middle T antigens in immunoprecipitates prepared from virus-infected and transformed cells. Phosphatase activity was also found associated with middle T-antigen mutants, some of which had been defined previously to associate with 36- and 63-kDa cellular proteins. Middle T-antigen-associated phosphatase activity was sensitive to okadaic acid and microcystin-LR, inhibitors of PP2A, and insensitive to inhibitor 1 or 2, orthovanadate, or EDTA. Using antiserum specific for the catalytic subunit of PP2A, we found that unlike the majority of PP2A, middle T-antigen-bound PP2A was membrane associated. However, no gross change in the amount, activity, or localization of PP2A could be attributed to middle T-antigen expression in transformed cells. Anti-PP2A antibodies coprecipitated a 63-kDa protein from normal cells and in addition coprecipitated middle T antigen, 60- and 61-kDa proteins (identified as src family members), and an 81-kDa protein from middle T-antigen-transformed cells. Furthermore, we detected protein kinase activity in PP2A immunoprecipitates and protein phosphatase activity in src immune complexes from extracts of middle T-antigen-transformed, but not normal, cells. These results reinforce the notion that at least a portion of middle T antigen bridges a protein kinase with a protein phosphatase.
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PMID:Characterization of the interaction of polyomavirus middle T antigen with type 2A protein phosphatase. 137 Nov 66

The bumetanide-sensitive component of pHi recovery from an NH4Cl-induced acute alkaline load was used as a measure of Na(+)-K(+)-2Cl- cotransport activity in rat parotid acini. Acinar treatment with NaF/AlCl3 (15 mM NaF plus 10 microM AlCl3) induced a 5-fold stimulation in the initial rate of bumetanide-sensitive pHi recovery. This effect was dependent on NaF concentration (K1/2 approximately 7 mM) and was blunted in the presence of the Al3+ chelator desferal mesylate suggesting that it might be due to the aluminofluoride ion, AlF-4. NaF/AlCl3 treatment did not increase acinar intracellular cAMP levels but did result in an increase in intracellular calcium concentration (from 87 +/- 5 to 181 +/- 2 nM) and in acinar cell shrinkage (12 +/- 1%). But the stimulation of the Na(+)-K(+)-2Cl- cotransporter by NaF/AlCl3 persisted in acini which had been depleted of their intracellular Ca2+ stores. In these acini no effect of NaF/AlCl3 on intracellular calcium or cell volume was observed, indicating that stimulation of the cotransporter was not secondary to either of these phenomena. The effect of NaF/AlCl3 on the cotransporter was blocked by the protein kinase inhibitor K252a indicating the involvement of a protein phosphorylation event. This result is consistent with either NaF/AlCl3-dependent protein kinase activation or phosphatase inhibition. The stimulation of the cotransporter by NaF/AlCl3 was mimicked by the protein phosphatase inhibitor calyculin A; however, this effect was not blocked by K252a suggesting that a different protein kinase from that associated with NaF/AlCl3 may be involved. The data indicate that the Na(+)-K(+)-2Cl- cotransporter in this tissue is under tight regulatory control, in all likelihood via multiple protein kinase/phosphatase systems. The physiological roles of these regulatory events in modulating acinar fluid secretion driven by the Na(+)-K(+)-2Cl- cotransporter remain to be elucidated.
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PMID:Activation of the Na(+)-K(+)-2Cl- cotransporter in rat parotid acinar cells by aluminum fluoride and phosphatase inhibitors. 138 25

We have investigated the role of protracted phosphatase inhibition and the consecutive protracted protein phosphorylation on neuronal viability. We found that in primary cultures of cerebellar granule neurons, the protracted (24-h) inhibition of the serine/threonine protein phosphatases 1 and 2A (EC 3.1.3.16) by treatment of the cultures with okadaic acid (OKA; 5-20 nM) caused neurotoxicity that could be inhibited by the protein kinase inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) or by the previous down-regulation of the neuronal protein kinase C (PKC; ATP:protein phosphotransferase; EC 2.7.1.37). PKC was down-regulated by exposure of the cultures for 24 h to 100 nM phorbol 12-myristate 13-acetate (TPA). The effect of the drugs used in the viability studies on the pattern of protein phosphorylation was measured by quantitative autoradiography. In particular, the 50- and 80-kDa protein bands showed dramatic changes in the degree of phosphorylation: increase by OKA and brief TPA treatment; decrease by H7 or 24 h of TPA treatment; and inhibition of the OKA-induced increase by H7 or 24 h of TPA treatment. The results suggest that the protracted phosphorylation, in particular that mediated by PKC, may lead to neuronal death and are in line with our previous suggestion that prolonged PKC translocation is operative in glutamate neurotoxicity.
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PMID:Pathological phosphorylation causes neuronal death: effect of okadaic acid in primary culture of cerebellar granule cells. 140 5

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