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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Synaptic plasma membranes from rat brain cortex possess intrinsic ability to dephosphorylate the endogenous protein B-50. At low concentrations of [gamma-32P]ATP, B-50 phosphorylation in synaptic membranes is maximal at 30 seconds, followed by dephosphorylation for an additional 60 minutes. The dephosphorylation of 32P-labeled B-50 is not sensitive to the protease inhibitor leupeptin and not correlated with a loss of the B-50 content of synaptic membranes as measured with immunoblot analysis. Dephosphorylation of membrane-associated B-50 is stimulated to a small extent by Mg2+ but not by Ca2+. Heat-stable protein phosphatase inhibitors prevent dephosphorylation of 32P-labeled B-50. Dephosphorylation of B-50 in synaptic membranes is stimulated by ATP, ADP, or adenosine 5'-O-thiotriphosphate, but not by adenine, adenosine, other adenine or guanine nucleotides, nonhydrolyzable analogs of ATP or GTP, nor by adenosine 5'-O-(2-thiodiphosphate). B-50, phosphorylated by exogenous protein kinase C and purified to homogeneity, has been used as a substrate to follow the purification of B-50 phosphatase activity. B-50 phosphatase activity can be solubilized from synaptic membranes with 0.5% Triton X-100 and 75 mM KCl. Chromatography of the extract on DEAE-cellulose yields enhanced B-50 phosphatase activity.
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PMID:Dephosphorylation of B-50 in synaptic plasma membranes. 215 32

It is shown that the catalytic subunit of an inositol phosphate-stimulated protein phosphatase (a member of the type-1 protein phosphatase family) purified from bovine brain membranes is phosphorylated in vitro by protein kinase C, but not by protein kinase A or by Ca2+/calmodulin-dependent protein kinase II. The phosphorylation of the protein phosphatase by protein kinase C induces an increased sensitivity to stimulation by Ins (1,4,5)P3, Ins(1,3,4,5,6)P5 and heparin.
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PMID:Phosphorylation of an inositol phosphate-stimulated protein phosphatase by protein kinase C. 216 63

Protein phosphorylation has been recognized as a major mechanism by which cellular functions are controlled by neurotransmitters and hormones. In this review, applications of molecular biological techniques to the analyses of regulatory mechanisms of protein phosphorylation by four major second messengers, cAMP, cGMP, diacylglycerol, and Ca2+, are described. 1) Complementary DNA of the regulatory subunit of the cAMP-dependent protein kinase was cloned and expressed in E. coli. Point mutations were introduced in order to analyze functional domains of the subunit. 2) The soluble isoform of guanylate cyclase was purified, and a cDNA of its 70-KD subunit was cloned. Cyclic GMP binding to purified cGMP-dependent protein kinase was characterized using a rapid filtration assay. 3) Primary structure of the catalytic subunit of calmodulin-dependent protein phosphatase (calcineurin A) was determined and the presence of the second isoform of the enzyme was shown by the cDNA cloning technique. 4) The regulatory domain of the protein kinase C was expressed in E. coli. Analysis using site-directed mutagenesis revealed that a "zinc finger"-like structure is responsible for the binding of phorbol esters. In these studies, the molecular biological approach has proven to be useful for clarifying the molecular mechanisms of cellular signal transduction related to second messengers and protein phosphorylation.
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PMID:[Second messengers and protein phosphorylation in cellular signal transduction]. 222 19

The major site of phosphorylation of the epidermal growth factor (EGF) receptor after treatment of cells with EGF is threonine 669. Phosphorylation of this site is also associated with the transmodulation of the EGF receptor caused by platelet-derived growth factor and phorbol ester. A distinctive feature of the primary sequence surrounding threonine 669 is the proximity of 2 proline residues (-Pro-Leu-Thr669-Pro-). This site is not a substrate for phosphorylation by protein kinase C. To investigate the mechanism of the increased phosphorylation of the EGF receptor at threonine 669, in vitro assays were used to measure protein kinase and protein phosphatase activities present in homogenates prepared from cells treated with and without EGF. No evidence for the regulation of protein phosphatase activity was obtained in experiments using the [32P]phosphate-labeled EGF receptor as a substrate. A synthetic peptide corresponding to residues 663-681 of the EGF receptor was used as a substrate for protein kinase assays. Incubation of murine 3T3 L1 pre-adipocytes and human WI-38 fibroblasts with EGF caused a rapid increase (3-10-fold) in the level of threonine protein kinase activity detected in cell homogenates. Similar results were obtained after EGF treatment of Chinese hamster ovary cells expressing wild-type (Thr669) and mutated (Ala669) human EGF receptors. Activation of the threonine protein kinase activity was also observed in cells treated with platelet-derived growth factor, serum, and phorbol ester. Insulin-like growth factor-1 caused no significant change in protein kinase activity. Together these data indicate a role for the regulation of the activity of a threonine protein kinase in the control of the phosphorylation state of the EGF receptor at threonine 669. The significance of the identification of a growth factor-stimulated threonine protein kinase to the mechanism of signal transduction is discussed.
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PMID:Mechanism of phosphorylation of the epidermal growth factor receptor at threonine 669. 254 83

Tick salivary glands are controlled by nerves, dopamine being a neurotransmitter at the neuroeffector junction. Dopamine and cyclic AMP (cAMP) stimulate fluid secretion by isolated salivary glands. Dopamine activates an adenylate cyclase to increase intracellular cAMP within the female salivary glands. Phosphoproteins whose levels of phosphate are affected by cAMP-dependent protein kinase have been identified in subcellular fractions. Protein(s) phosphorylated by cAMP appears to activate protein phosphatase in the salivary glands. Another phosphorylation pathway appears to act through protein kinase C because of an ability of phorbol esters (known activators of protein kinase C) to stimulate the phosphorylation of proteins, and an ability of a peptide factor in tick brain to metabolize salivary-gland phosphoinositides, an event that often precedes activation of protein kinase C. Because cAMP modulates brain-factor-stimulated formation of inositol phosphates (products of phosphoinositide breakdown) an interrelationship between the two pathways seems likely. Evidence of regulatory processes, including protein phosphorylation/dephosphorylation reactions, will provide a basis for helping assess the physiological significance of secretory products and the role of the salivary glands in disease transmission.
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PMID:Protein phosphorylation and control of tick salivary gland function. 254 51

To identify the protein kinase that is responsible for catalyzing phosphorylation of actin-binding protein (ABP) in platelets, we have examined the effects of protein kinase C and cAMP-dependent protein kinase on this process. We found that purified platelet protein kinase C from platelets was unable to phosphorylate ABP in vitro. However, a crude platelet kinase preparation phosphorylated ABP in the presence of cAMP, but not in the presence of Ca2+/phosphatidylserine. Fresh platelet plasma membranes incubated with [gamma-32P]ATP phosphorylated ABP in the presence of cAMP and the process was blocked by a cAMP-dependent protein kinase inhibitor; ABP phosphorylation induced by prostaglandin E1 (PGE1) appeared to be reduced by the subsequent addition of thrombin. These results strongly suggest that in situ ABP is phosphorylated by activated cAMP-dependent protein kinase when platelet function is inhibited by PGE1. Furthermore, in the PGE1-treated platelets, ABP was proteolyzed at a slower rate than in control platelets when they were lysed with Triton in the absence of EGTA. Partially purified ABP was proteolyzed by calpain in vitro at a slower rate as well. It was demonstrated that ABP from PGE1-treated platelets recovered its sensitivity to calpain after ABP was incubated with a protein phosphatase that had been purified from platelets. We postulate that ABP is stabilized against proteolysis in response to cAMP-elevating agents and that this blocks cytoskeleton reorganization.
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PMID:In situ phosphorylation of platelet actin-binding protein by cAMP-dependent protein kinase stabilizes it against proteolysis by calpain. 254 93

The site in calcineurin, the Ca2+/calmodulin (CaM)-dependent protein phosphatase, which is phosphorylated by Ca2+/CaM-dependent protein kinase II (CaM-kinase II) has been identified. Analyses of 32P release from tryptic and cyanogen bromide peptides derived from [32P]calcineurin plus direct sequence determination established the site as -Arg-Val-Phe-Ser(PO4)-Val-Leu-Arg-, which conformed to the consensus phosphorylation sequence for CaM-kinase II (Arg-X-X-Ser/Thr-). This phosphorylation site is located at the C-terminal boundary of the putative CaM-binding domain in calcinerin (Kincaid, R. L., Nightingale, M. S., and Martin, B. M. (1988) Proc. Natl. Acad. Sci. U. S. A. 85, 8983-8987), thereby accounting for the observed inhibition of this phosphorylation when Ca2+/CaM is bound to calcineurin. Since the phosphorylation site sequence also contains elements of the specificity determinants for Ca2+/phospholipid-dependent protein kinase (protein kinase C) (basic residues both N-terminal and C-terminal to Ser/Thr), we tested calcineurin as a substrate for protein kinase C. Protein kinase C catalyzed rapid stoichiometric phosphorylation, and the characteristics of the reaction were the same as with CaM-kinase II: 1) the phosphorylation was blocked by binding of Ca2+/CaM to calcineurin; 2) phosphorylation partially inactivated calcineurin by increasing the Km (from 9.9 +/- 1.1 to 17.5 +/- 1.1 microM 32P-labeled myosin light chain); and 3) [32P]calcineurin exhibited very slow autodephosphorylation but was rapidly dephosphorylated by protein phosphatase IIA. Tryptic and thermolytic 32P-peptide mapping and sequential phosphoamino acid sequence analysis confirmed that protein kinase C and CaM-kinase II phosphorylated the same site.
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PMID:Regulation of calcineurin by phosphorylation. Identification of the regulatory site phosphorylated by Ca2+/calmodulin-dependent protein kinase II and protein kinase C. 255 Apr 47

The cloning of complementary DNAs for protein kinase C (PKC) has revealed a multi-gene family of closely related protein kinases [Parker et al. (1986) Science 233, 853-859; Coussens et al. (1986) Science 233, 859-866]. In vivo, the distribution of the PKC isoenzymes follows a fairly tissue-specific pattern suggesting that functional differences exist between the members of this kinase family. To initiate a detailed characterisation of the individual isoenzymes, and as an alternative approach to purifying and separating the individual PKC types and their splice variants from mammalian tissues, we have expressed the bovine PKC type gamma in insect cells using a baculovirus expression vector. The bovine protein constitutes one of the major proteins in infected cells and can be purified to near homogeneity by a 2-step procedure. Analysis of the purified protein confirms that it has authentic mammalian PKC characteristics with respect to phospholipid dependence and phorbol ester binding. The bovine PKC gamma purified from infected cells is post-translationally modified and resolves into a doublet of molecular weights 82,000 and 84,000 upon SDS-polyacrylamide gel electrophoresis. These two size classes of polypeptides appear to result from differential phosphorylation as demonstrated by sensitivity to protein phosphatase treatment. The applicability and the potential of this system for the analysis of the various mammalian PKC isoenzymes is discussed.
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PMID:Expression of a functional protein kinase C-gamma using a baculovirus vector: purification and characterisation of a single protein kinase C iso-enzyme. 256 42

Okadaic acid is a polyether derivative of 38-carbon fatty acid, and is implicated as the causative agent of diarrhetic shellfish poisoning. It is a potent tumour promoter that is not an activator of protein kinase C, but is a powerful inhibitor of protein phosphatases-1 and -2A (PP1 and PP2A) in vitro. We report here that okadaic acid rapidly stimulates protein phosphorylation in intact cells, and behaves like a specific protein phosphatase inhibitor in a variety of metabolic processes. Our results indicate that PP1 and PP2A are the dominant protein phosphatases acting on a wide range of phosphoproteins in vivo. We also find that okadaic acid mimics the effect of insulin on glucose transport in adipocytes, which suggests that this process is stimulated by a serine/threonine phosphorylation event.
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PMID:Effects of the tumour promoter okadaic acid on intracellular protein phosphorylation and metabolism. 256 8

Activation of Jurkat T lymphocytes to produce IL2 is accompanied by a strong inhibition of phosphatidylserine (PS) synthesis. This inhibition was obtained either with the mitogenic lectin PHA, anti-CD3 monoclonal antibodies (mAb), anti-CD2 mAb or anti-Ti mAb. Bypassing membrane receptor signalling, by using a Ca2+ ionophore or a protein phosphatase inhibitor, sodium ortho-vanadate, also results in a marked inhibition of PS synthesis. Activators of phospholipid -Ca2+ dependent protein kinase C (PKC) did not significantly modify PS synthesis, suggesting that the observed changes only involve the transduction of the first activation signal. PS being a necessary cofactor for PKC, our results strongly suggest that the inhibition of PS synthesis induced by receptor triggering exerts a feed back control on PKC therefore leading to a transient activation of the enzyme upon full lymphocyte activation.
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PMID:Phospholipid metabolism and T cell activation: receptor triggering is associated with the inhibition of phosphatidylserine synthesis. 257 21


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