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)

Addition of epidermal growth factor (EGF) to many cell types activates phospholipase C resulting in increased levels of diacylglycerol and intracellular Ca2+ which may lead to activation of protein kinase C. EGF treatment of cells can also lead to phosphorylation of the EGF receptor at threonine 654 (a protein kinase C phosphorylation site) which appears to attenuate some aspects of receptor signaling. Thus, a feedback loop involving the EGF receptor, phospholipase C, and protein kinase C may regulate EGF receptor function. In this report, the role of phosphorylation of threonine 654 of the EGF receptor in regulation of EGF-stimulated activation of phospholipase C was investigated. NIH-3T3 cells expressing the normal human EGF receptor or expressing EGF receptor in which an alanine residue had been substituted at residue 654 of the receptor were used. Addition of EGF to cells expressing wild-type receptor induced a rapid, but transient, increase in phosphorylation of threonine 654. EGF addition also caused the rapid accumulation of inositol phosphates in these cells. EGF-stimulated accumulation of inositol phosphates was significantly higher in cells expressing Ala-654 receptors compared to control cells. Treatment of cells with 12-O-tetradecanoylphorbol 13-acetate (TPA), which stimulated phosphorylation of threonine 654 to a greater degree than EGF, completely inhibited EGF-dependent inositol phosphate accumulation in cells expressing wild-type receptor, but caused only a 20-30% inhibition in Ala-654 expressing cells. EGF stimulated phosphorylation of phospholipase C-gamma on serine and tyrosine residues in cells expressing wild-type of Ala-654 receptors. However, TPA treatment of cells inhibited EGF-induced tyrosine phosphorylation of phospholipase C-gamma only in cells expressing wild-type receptors. Similarly, TPA inhibited tyrosine-specific autophosphorylation of the EGF receptor and tyrosine phosphorylation of several other proteins in wild-type receptor cells, but not in Ala-654 cells. TPA treatment abolished high affinity binding of EGF to cells expressing wild-type receptors, while decreasing the number of high affinity binding sites 20-30% in Ala-654 cells. These data suggest that phosphorylation of threonine 654 can regulate early events in EGF receptor signal transduction such as phosphoinositide turnover, probably through a feedback mechanism involving protein kinase C. Subsequent dephosphorylation of threonine 654 could reactivate the EGF receptor for participation in later signaling events.
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PMID:Effects of substitution of threonine 654 of the epidermal growth factor receptor on epidermal growth factor-mediated activation of phospholipase C. 210 64

Tumor necrosis factor alpha (TNF-alpha) and bacterial lipopolysaccharide (LPS) induce the synthesis and cotranslational myristoylation of an 82-kDa specific protein kinase C substrate in human neutrophils. The myristic acid is covalently bound via a hydroxylamine-resistant amide linkage to the N-terminal glycine of the protein. The isoelectric point of the protein is at pH 4.6. The protein is rapidly phosphorylated when neutrophils are stimulated with chemotactic agonists or with phorbol 12-myristate 13-acetate, an activator of protein kinase C, and displays two characteristic phosphopeptides in one- and two-dimensional separation systems. Identical phosphopeptides were detected when the 82-kDa protein was phosphorylated in vitro with purified kinase C. The 82-kDa protein was immunoprecipitated by a polyclonal antiserum raised against the 87-kDa specific protein kinase C substrate from bovine brain. From these biochemical and immunological criteria it is concluded that the 82-kDa protein is the human neutrophil homolog of MARCKS, the myristoylated, alanine-rich C kinase substrate previously described in bovine and rat brain and in murine fibroblasts and macrophages. TNF-alpha and LPS prime human neutrophils for potentiated protein kinase C-dependent responses such as the respiratory burst and exocytosis. Consistent with this, these mediators do not induce the phosphorylation of MARCKS but prime the neutrophils for enhanced phosphorylation of this protein when the cells subsequently encounter activators of protein kinase C. This increase in MARCKS phosphorylation can be explained by the elevated levels of the protein observed in TNF-alpha- or LPS-treated neutrophils. Indeed, MARCKS constitutes 90% of all proteins synthesized in response to TNF-alpha or LPS. These data strongly suggest that MARCKS acts as a critical effector molecule in the transduction pathway of these important inflammatory mediators.
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PMID:Tumor necrosis factor alpha modifies agonist-dependent responses in human neutrophils by inducing the synthesis and myristoylation of a specific protein kinase C substrate. 211 1

The neuron-specific, calmodulin-binding protein B-50 (also known as GAP-43, F1, or neuromodulin) is an endogenous substrate of protein kinase C (PKC). PKC exclusively phosphorylates Ser residues in B-50. As potential phosphorylation sites for PKC, Ser41, Ser110, and Ser122 were indicated, of which Ser41 is contained in the sequence ASF, which matches with the sequence of a synthetic PKC substrate. N-terminally 35S-labeled B-50, produced from cDNA, was subjected to digestion with Staphylococcus aureus V8 protease (SAP). Consecutively, 35S-labeled 28- and 15-kDa fragments were formed, similar to those after digestion of 32P-labeled B-50. In a previous study, we showed that the 32P-labeled 15-kDa SAP fragment contains all 32P radioactivity. The present data indicate that it contains the N-terminus of B-50 as well. The 15-kDa fragment, with a calculated length ranging from amino acid residue 1 to 65, contains only one potential PKC phosphorylation site, at Ser41. Mutagenesis of Ser41 into Thr or Ala resulted in recombinant B-50 products with mobilities on two-dimensional electrophoresis similar to those of the nonmutated recombinant B-50 and the rat brain B-50. Only [Ser41]B-50 was phosphorylated by PKC, whereas [Thr41]- or [Ala41]B-50 did not show any phosphorylation at the positions indicated on the immunoblots. This leads us to the conclusion that Ser41 is the sole phosphorylation site for PKC in vitro.
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PMID:Mutation of serine 41 in the neuron-specific protein B-50 (GAP-43) prohibits phosphorylation by protein kinase C. 214 85

The synthetic lipopeptide Pam3Cys-Ala-Gly, an analogue of the N-terminal part of bacterial lipoprotein, constitutes a potent macrophage activator. The role of protein kinase C (PKC) in lipopeptide induced signal transduction was investigated. As determined by enzymatic and immunochemical methods, translocation of PKC could not be observed in lipopeptide stimulated bone marrow derived macrophages. Our studies showed that the membrane-associated form of PKC displayed different characteristics than the cytosolic form. The second messengers, inositoltrisphosphate, cAMP and cGMP, did not seem to be involved in signal transduction. Unlike LPS, Pam3Cys-Ala-Gly induced a rapid rise in cytosolic Ca2+, which was due to an influx of extracellular calcium as well as to a redistribution of intracellular calcium. The data suggest that one major intracellular signal transduction mechanism initiated by lipopeptide consists of altering internal Ca2+ concns.
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PMID:Determination of second messengers and protein kinase C in bone marrow derived macrophages stimulated with a bacterial lipopeptide. 216 34

A purified bovine lung cGMP-binding cGMP-specific phosphodiesterase (cG-BPDE) was rapidly phosphorylated by purified bovine lung cGMP-dependent protein kinase (cGK). Within a physiological concentration range, cGK catalyzed phosphorylation of cG-BPDE at a rate approximately 10 times greater than did equimolar concentrations of purified catalytic subunit of cAMP-dependent protein kinase (cAK). cG-BPDE was a poor substrate for either purified protein kinase C or Ca2+/calmodulin-dependent protein kinase II. Binding of cGMP to the cG-BPDE binding site was required for phosphorylation since (a) phosphorylation of cG-BPDE by the catalytic subunit of cAK was cGMP-dependent, (b) phosphorylation of cG-BPDE in the presence of a cGMP analog specific for activation of cGK was cGMP-dependent, and (c) occupation of the cG-BPDE hydrolytic site with competitive inhibitors did not produce the cGMP-dependent effect. cGMP-dependent phosphorylation of cG-BPDE by both cGK and cAK occurred at serine. Proteolytic digestion of cG-BPDE phosphorylated by either cGK or cAK revealed the same phosphopeptide pattern, suggesting that phosphorylation by the two kinases occurred at the same or adjacent site(s). Tryptic digestion of cG-BPDE phosphorylated by cGK and [gamma-32P]ATP produced a single major phosphopeptide of approximately 2 kDa with the following amino-terminal sequence: Lys-Ile-Ser-Ala-Ser-Glu-Phe-Asp-Arg-Pro-Leu-Arg- Radioactivity was released during the third cycle of Edman degradation. cG-BPDE is one of few specific in vitro cGK substrates of known function to be identified. Elevation of intracellular cGMP may cause phosphorylation of cG-BPDE by modulating the substrate site availability as well as by activating cGK. Such regulation would greatly increase the selectivity of the phosphorylation of cG-BPDE and would represent a unique mechanism of action of a cyclic nucleotide or other second messenger.
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PMID:Substrate- and kinase-directed regulation of phosphorylation of a cGMP-binding phosphodiesterase by cGMP. 216 96

Inhibition of diacylglycerol (DAG) kinase, an alternative way to increase the cellular DAG level, was shown to reproduce, in renal proximal tubular cells, the inhibitory effect of protein kinase C (PKC) activators on Na-Pi and Na-alpha-methyl-D-glucopyranoside (MGP) cotransport. To evaluate whether 12S-hydroxyeicosatetraenoic acid (12S-HETE) or 12R-HETE, a DAG kinase inhibitor in endothelial cells, has a similar effect in proximal tubular cells, we studied the influence of this lipoxygenase product on Na-dependent uptake of Pi, MGP, and alanine, as well as on [14C]arachidonate-DAG content and [32P]phosphatidic acid (PA) content in rabbit proximal tubular cells grown as a primary culture. 12-HETE (1-10 microM) decreased [32P]PA content and stimulated [14C]DAG accumulation in a concentration-dependent manner. The labeled phosphatidylcholine, lysophosphatidylcholine, and sphingomyelin contents were not modified. 12-HETE also decreased DAG kinase activity of cell membranes. 12-HETE (10 microM) decreased the maximum velocity of Pi uptake by 36% and that of MGP uptake by 44% but did not affect alanine uptake. The effect of 12-HETE on transport was potentiated by calcium ionophore A23187 and was blunted by PKC downregulation. The effects of 12-HETE on lipid composition and transport were mimicked by R 59022, a pharmacological DAG kinase inhibitor. Neither arachidonic acid nor prostaglandin E2 reproduced the effects of 12-HETE. We conclude that in the proximal tubule, 12-HETE affected Na-dependent Pi and MGP cotransport through stimulation of PKC and that 12-HETE-induced activation of PKC is mediated by the inhibition of DAG kinase.
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PMID:12-HETE modulates Na-coupled uptakes in proximal tubular cells: role of diacylglycerol kinase inhibition. 217 22

To assess the functional significance of phosphorylation of the epidermal growth factor (EGF) receptor at Thr654, we compared the effects of 12-O-tetradecanoyl-13-acetate (TPA) on ligand-induced internalization and down-regulation between wild-type and mutant receptors that contain an alanine substitution at position 654. Activation of protein kinase C with TPA blocked EGF-induced internalization and down-regulation of Thr654 receptors and inhibited in vivo tyrosine kinase activity by 80%. TPA did not inhibit transferrin receptor internalization or constitutive EGF receptor internalization, suggesting that protein kinase C activation inhibits only the ligand-induced process. Inhibition by TPA of induced internalization, down-regulation, and kinase activity required threonine at position 654 since full-length Ala654 EGF receptors were significantly resistant to TPA inhibition of these ligand-induced activities. However, C'-terminal truncation further enhanced this resistance to TPA inhibition. The EGF-dependent internalization of kinase-inactive receptors truncated at residue 1022 was also impaired by TPA in Thr654 receptors, but not in Ala654 receptors, indicating that phosphorylation at Thr654 also interferes with tyrosine kinase-independent receptor activities. We conclude that the dominant regulatory effect of protein kinase C on the EGF receptor is mediated through phosphorylation at Thr654 which effectively inactivates the receptor. The submembrane region of the EGF receptor appears to regulate transmission of conformational information from the extracellular ligand-binding site to the cytoplasmic kinase and regulatory domains.
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PMID:Phosphorylation of the epidermal growth factor receptor at threonine 654 inhibits ligand-induced internalization and down-regulation. 217 10

The role of protein kinase C (PKC) in stimulus recognition and insulin secretion was investigated after long-term (24 h) treatment of RINm5F cells with phorbol 12-myristate 13-acetate (PMA). Three methods revealed that PKC was no longer detectable, and PMA-induced insulin secretion was abolished. Such PKC-deficient cells displayed enhanced insulin secretion (2-6-fold) in response to vasopressin and carbachol (activating phospholipase C) as well as to D-glyceraldehyde and alanine (promoting membrane depolarization and voltage-gated Ca2+ influx). Insulin release stimulated by 1-oleoyl-2-acetylglycerol (OAG) was also greater in PKC-deficient cells. OAG caused membrane depolarization and raised the cytosolic Ca2+ concentration ([Ca2+]i), both of which were unaffected by PKC down-regulation. Except for that caused by vasopressin, the secretagogue-induced [Ca2+]i elevations were similar in control and PKC-depleted cells. The [Ca2+]i rise evoked by vasopressin was enhanced during the early phase (observed both in cell suspensions and at the single cell level) and the stimulation of diacylglycerol production was also augmented. These findings suggest more efficient activation of phospholipase C by vasopressin after PKC depletion. Electrically permeabilized cells were used to test whether the release process is facilitated after long-term PMA treatment. PKC deficiency was associated with only slightly increased responsiveness to half-maximally (2 microM) but not to maximally stimulatory Ca2+ concentrations. At 2 microM-Ca2+ vasopressin caused secretion, which was also augmented by PMA pretreatment. The difference between intact and permeabilized cells could indicate the loss in the latter of soluble factors which mediate the enhanced secretory responses. However, changes in cyclic AMP production could not explain the difference. These results demonstrate that PKC not only exerts inhibitory influences on the coupling of receptors to phospholipase C but also interferes with more distal steps implicated in insulin secretion.
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PMID:Potentiation of stimulus-induced insulin secretion in protein kinase C-deficient RINm5F cells. 217 69

The influence of the insulin secretagogues, carbachol and glucose, on protein kinase C activation in isolated pancreatic islets has been examined by determination of the phosphorylation state of an endogenous 80-kDa protein substrate of protein kinase C. The islet 80-kDa protein was identified as the myristoylated alanine-rich C kinase substrate previously described (Stumpo D. J., Graff, J. M., Albert, K. A., Greengard, P., and Blackshear, P. J. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 4012-4016) by immunoprecipitation studies. The muscarinic agonist, carbachol (500 microM), induced insulin secretion and a time-dependent increase in the phosphorylation state of this protein in islets. This phosphorylation was maximal (220 +/- 24% of control) at 5 min and was suppressed by the protein kinase C inhibitor, staurosporine. Concentrations of glucose (28 mM) which induce maximal insulin secretion did not induce a statistically significant increase in 80-kDa phosphorylation. The combination of carbachol and a submaximally stimulatory concentration of glucose (10 mM), when added simultaneously, exerted a marked synergistic effect on insulin secretion and a synergistic effect on the phosphorylation of the 80-kDa protein kinase C substrate. These data suggest that the activation of protein kinase C may play an important role in carbachol-induced insulin secretion and in the potentiation by carbachol of insulin secretion induced by glucose. However, the activation of protein kinase C does not appear to be a primary determinant of insulin secretion induced by glucose alone.
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PMID:Effects of insulin secretagogues on protein kinase C-catalyzed phosphorylation of an endogenous substrate in isolated pancreatic islets. 220 65

The myristoylated, alanine-rich C kinase substrate (MARCKS) is a prominent substrate for protein kinase C (PKC) in a variety of cells, and has been implicated in diverse cellular processes including neurosecretion, fibroblast mitogenesis, and macrophage activation. In macrophages that have spread on the substratum, MARCKS has a punctate distribution at the cell-substratum interface of pseudopodia and filopodia. At these points, MARCKS co-localizes with vinculin and talin. Activation of PKC with phorbol esters results in the rapid disappearance of punctate staining of MARCKS, but not vinculin or talin, and is accompanied by cell spreading and loss of filopodia. The morphological changes and disappearance of punctate staining follow a time-course that closely approximates both the PKC-dependent phosphorylation of MARCKS, and its phosphorylation-dependent release from the plasma membrane. Our results suggest a role for PKC-dependent phosphorylation of MARCKS in the regulation of the membrane cytoskeleton.
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PMID:Activation of protein kinase C results in the displacement of its myristoylated, alanine-rich substrate from punctate structures in macrophage filopodia. 221 50


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