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)

1. The effect of a sunflower oil-enriched diet on plasma membrane-bound protein kinase C, protein kinase A, casein and tyrosine kinase activities was studied. 2. The diet induced an increase in the content of linoleic acid and a decrease in the content of palmitic acid. The anisotropy parameter (rs) of the fluorescence probe DPH and SDPH decreased strongly in the experimental group. 3. Protein kinase C was stimulated more than two times. Tyrosine kinase, protein kinase A and casein kinase activities were increased by 65, 57 and 40%, respectively. 4. We suggest that a more fluid lipid environment favours higher plasma membrane-bound protein kinase activities.
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PMID:Effect of a sunflower oil-supplemented diet on protein kinase activities of rat liver plasma membranes. 147 8

This report describes analysis of factors which regulate the binding of EGF to EGF receptor, receptor internalization, and receptor recycling. Three different methods were used to inhibit high-affinity EGF binding as measured at equilibrium: treatment of cells with an active phorbol ester (PMA), binding of a mAb directed against the EGF receptor (mAb108), and truncation of most of the cytoplasmic domain of the receptor. These treatments reduced the rate at which low concentrations of EGF bound to cells, but did not affect the rate of EGF dissociation. We conclude that high-affinity EGF binding on living cells results from a difference in the apparent on rate of EGF binding. We then used these conditions and cell lines to test for the rate of EGF internalization at different concentrations of EGF. We demonstrate that internalization of the EGF receptor is stimulated roughly 50-fold at saturating concentrations of EGF, but is stimulated an additional two- to threefold at low concentrations (less than 1 nM). Four treatments reduce the rate of internalization of low concentrations of EGF to the rate seen at saturating EGF concentrations. Phorbol ester treatment and mAb108 binding to "wild type" receptor reduce this rate (and reduce high-affinity binding). Point mutation at Lys721 (kinase negative EGF receptor) and point mutation at Thr654 (removing a major site of protein kinase C phosphorylation) reduce the internalization rate, without affecting high-affinity binding. We suggest that while EGF stimulates endocytosis for all receptors, high-affinity receptors bind and are internalized more quickly than low-affinity receptors. Tyrosine kinase activity and the Thr654 region appear necessary for this response.
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PMID:Kinetics of binding, endocytosis, and recycling of EGF receptor mutants. 155 53

Activation of the mitogen-activated protein (MAP) kinase pathway is believed to play a critical role in normal and pathophysiological proliferation of mesangial cells. Recent studies have shown that MAP kinase activation by growth factors in other cell types involves activation of the low-molecular-weight G protein Ras and the protooncogene serine kinase c-Raf-1. In this study, the role of this pathway in rat renal mesangial cells was assessed. Platelet-derived growth factor (PDGF), epidermal growth factor (EGF), as well as phorbol esters (PMA) rapidly activated MAP kinase three- to fourfold in these cells. PDGF and EGF, but not PMA, were able to activate c-Raf-1 and Ras activity. Stimulation of mesangial cells with the inflammatory mediator prostaglandin E2 (PGE2) or elevation of intracellular adenosine 3',5'-cyclic monophosphate (cAMP) by treatment with forskolin markedly blunted activation of MAP kinase induced by PDGF and EGF, but not by PMA. Consistent with this observation, PGE2 abolished growth factor-induced activation of c-Raf-1. However, Ras activation induced by growth factors was not affected by PGE2 and forskolin. These results suggest that MAP kinase activation can occur by at least two separate pathways in mesangial cells. Tyrosine kinase receptors activate MAP kinase through activation of Ras and Raf. This pathway can be blocked by PGE2 and elevation of cAMP, presumably by interfering with the ability of Ras to activate Raf. In addition, activation of protein kinase C by phorbol esters can activate MAP kinase in a Ras/Raf-independent manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of MAP kinase by prostaglandin E2 and forskolin in rat renal mesangial cells. 748 69

In the renal medulla during antidiuresis, the extracellular fluid becomes hyperosmotic. Madin-Darby canine kidney (MDCK) epithelial cells adapt in hyperosmotic conditions and serve as a useful tissue culture model for cellular responses to hyperosmolality. We demonstrate that hyperosmolality stimulates phospholipase C, Raf-1 kinase mitogen-activated protein (MAP) kinase kinase, MAP kinase, and S6 kinase activities and that it increases phosphorylation of Raf-1 kinase, and p42 MAP kinase in MDCK cells. Stimulation of these kinases is osmolality-dependent (from 300 to 600 mosm/kg H2O). The time course of activation is sequential; the peak stimulation for Raf-1 kinase is at 5 min, at 10 min for MAP kinase kinase and MAP kinase, and at 20 min for S6 kinase. The activation of Raf-1 kinase and MAP kinase is inhibited by phorbol 12-myristate 13-acetate pretreatment in the presence of calphostin C or H-7. Tyrosine kinase inhibitors (genistein, herbimycin) do not significantly suppress hyperosmolality-induced MAP kinase activity. The increase of Ins-1,4,5-P3 levels by hyperosmolality suggests that activation of these kinases is mediated at least partially via activation of phospholipase C. Thus, hyperosmolality stimulates the serine/threonine kinases, Raf-1 kinase, MAP kinase kinase, MAP kinase, and S6 kinase, via predominantly protein kinase C-dependent, tyrosine kinase-independent pathways in MDCK cells.
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PMID:Sequential activation of Raf-1 kinase, mitogen-activated protein (MAP) kinase kinase, MAP kinase, and S6 kinase by hyperosmolality in renal cells. 752 42

Intracellular protein phosphorylation is thought to be the initial step in cell activation. Bacterial lipopolysaccharide (LPS) induces a special set of the protein phosphorylation in the murine peritoneal macrophages, including p65 (molecular mass of 65 kDa) which is a substrate of serine kinase and the most dominant phosphorylated cytosolic protein. This article deals with the relation between the LPS-induced protein phosphorylation in the murine peritoneal macrophages and their productions of IL-1 beta and TNF-alpha. LPS-induced p65 phosphorylation seems to be dependent on protein kinase C (PKC) and calmodulin (CaM), because it diminishes in the presence of inhibitors to PKC or CaM. Tyrosine kinase inhibitors do not affect the p65 phosphorylation. The PKC inhibitors also affect the mRNA expressions and the productions of active molecules of IL-1 beta and TNF-alpha. Though the CaM inhibitor inhibits the mRNA expression and the active molecule production of IL-1 beta, it does not affect those of TNF-alpha. These results suggest that LPS-induced p65 phosphorylation is closely related to PKC and CaM, and that IL-1 beta production depends on PKC and CaM, while the TNF-alpha production is not dependent on CaM. These findings indicate the existence of multiple pathways and different regulatory mechanisms for transduction of LPS signal in the macrophages. Furthermore, LPS-induced phosphorylation is not observed in endotoxin tolerant macrophages after re-stimulation with LPS, suggesting that the LPS-stimulus signal is blocked at a site in the signal transduction-pathway before the point of phosphorylation of proteins in the tolerant macrophages.
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PMID:Intracellular protein phosphorylation in murine peritoneal macrophages in response to bacterial lipopolysaccharide (LPS): effects of kinase-inhibitors and LPS-induced tolerance. 768 35

Activation of the mitogen-activated protein kinase (MAPK) pathway is believed to play a critical role in normal and pathophysiologic proliferation of mesangial cells. Recent studies have shown that MAP kinase activation by growth factors in other cell types involves activation of the low molecular weight G-protein ras and the protooncogene serine kinase c-raf-1. In this study the role of this pathway in rat renal mesangial cells was assessed. 20ng/ml of platelet-derived growth factor (PDGF), 10(-8) mol/L epidermal growth factor (EGF) as well as phorbol ester (10(-6) mol/L PMA) rapidly activated MAP kinase by 3-4 fold in these cells. PDGF and EGF, but not PMA were able to activate c-raf-1 and ras activity. Stimulation with inflammatory mediator PGE2 (50 mumol/L) or elevation of Intracellular cAMP by treatment of cells with forskolin (25 mumol/L) markedly blunted activation of MAP kinase induced by PDGF and EGF, but not PMA. Consistent with this observation, PGE2 abolished growth factor induced activation of c-raf-1. However, ras activation induced by growth factor was not affected by PGE2 and forskolin. These results suggest that MAP kinase activation can occur by at least two separate pathways in mesangial cells. Tyrosine kinase receptors activate MAP kinase through activation of ras and raf. This pathway can be blocked by PGE2 and elevation of cAMP, presumably by interfering with the ability of ras to activate raf. In addition, activation of protein kinase C by phorbol esters can activate MAP kinase in a ras/raf-independent manner. This pathway is not sensitive to inhibition by PGE2 or cAMP. It is likely that activation of each of these pathways, both resulting in a stimulated MAP kinase, will have different physiologic consequences in mediating mesangial cells growth.
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PMID:[Inhibition of growth factor stimulation of mitogen-activated protein kinase by prostaglandin E2 in rat renal mesangial cells]. 778 49

Human neutrophils maximally stimulated with the optimal concentration (100 ng/ml) of phorbol myristate acetate (PMA), a direct activator of protein kinase C (PKC), for 5 min at 37 degrees C did not respond with superoxide (O2-) release to the later addition of PMA itself or the Ca2+ ionophore ionomycin. However, these cells did respond with enhanced release of O2- to the later addition of N-formyl-methionyl-leucyl-phenylalanine (FMLP) or concanavalin A (Con A). In these PMA-pretreated cells, an increase in cytoplasmic free Ca2+ ([Ca2+]i) induced by ionomycin was unaffected, whereas that induced by FMLP was inhibited by 50-60% and that induced by Con A was completely abolished. A 42-kDa protein was predominantly and consistently tyrosine-phosphorylated by FMLP, PMA and ionomycin with the different kinetics according to the stimuli. The dose-response curves showed that tyrosine phosphorylation and O2- release were stimulated in parallel by PMA, whereas tyrosine phosphorylation and an increase in [Ca2+]i, but not O2- release, were stimulated in parallel by FMLP or ionomycin. The potency of inducing tyrosine phosphorylation was ionomycin > FMLP = PMA, whereas the potency of triggering of O2- release was PMA > ionomycin = FMLP. UCN-01, a PKC inhibitor, inhibited O2- release and tyrosine phosphorylation induced by PMA, but not by FMLP or ionomycin. In contrast, pertussis toxin inhibited O2- release and tyrosine phosphorylation induced by FMLP, but not by PMA. Tyrosine kinase inhibitors (erbstatin and genistein) inhibited O2- release induced by FMLP, but not by PMA. However, both tyrosine kinase inhibitors did not impair FMLP- or PMA-induced tyrosine phosphorylation of a 42-kDa protein. Increased tyrosine phosphorylation of a 42-kDa protein was also detected in immature myeloid cells (HL-60 cells) stimulated by PMA, but not by ionomycin. These findings suggest that FMLP and Con A trigger the respiratory burst in human neutrophils by activating the definite pathway which include other signals than activation of PKC and an increase in [Ca2+]i; tyrosine phosphorylation of a 42-kDa protein is induced by the PKC-dependent and independent mechanisms according to the stimuli, and the PKC-independent and ionomycin-sensitive mechanism is inoperative in HL-60 cells; and tyrosine phosphorylation of a 42-kDa protein is unlikely to be causally related to activation of the respiratory burst.
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PMID:Activation of the respiratory burst and tyrosine phosphorylation of proteins in human neutrophils: no direct relationship and involvement of protein kinase C-dependent and -independent signaling pathways. 821 64

We have described conditions by which MHC class II (I-A) glycoproteins can be induced to be differentially expressed after treatment of macrophages with rIFN-gamma. Treatment of macrophages from BCG-resistant mice with 1 U of rIFN-gamma induced transient I-A expression that decayed in the presence of cycloheximide. Subsequent treatment of these macrophages with 100 U of rIFN-gamma induced the persistence of I-A that was not affected by cycloheximide. The aim of this investigation was to define, by pharmacologic intervention, the second signals that resulted in the induction of persistence of I-A. Treatment of the macrophages that transiently expressed I-A with PMA resulted in the induction of persistence. When we compared the effect of different protein kinase C (PKC) inhibitors with the induction of persistence by rIFN-gamma, we found that H-7 blocked the induction of persistence only when added before or at the same time as the addition of a high dose of rIFN-gamma. In contrast, the addition of staurosporine to macrophages as late as 2 h after treatment with high doses of rIFN-gamma inhibited the induction of I-A persistence. The addition of a high dose of rIFN-gamma to macrophages previously treated with a low dose of rIFN-gamma resulted in the synergistic activation of PKC. The effect of H-7 and of staurosporine on the activation of PKC activity coincided with the effect of these inhibitors on the induction of persistent I-A expression. Tyrosine kinase inhibitors genistein and herbimycin did not affect the induction of I-A persistence nor of PKC activation. Antibody to the IFN-gamma receptor inhibited PKC activation. Finally, the addition of the high dose of rIFN-gamma to macrophages from BALB/c.Bcgs mice, previously treated with the low dose of rIFN-gamma, failed to activate high levels of PKC activity attained after similar treatment of macrophages from BALB/c.Bcgr mice. One effect of the Bcg gene may be to regulate the activation of PKC activity.
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PMID:The induction of persistence of I-A expression by macrophages from Bcgr mice occurs via a protein kinase C-dependent pathway. 830 Nov 34

We have analyzed the effect of antibodies (Abs) directed against major histocompatibility complex (MHC) class II Abs on the proliferation of Theileria parva-infected (Tpi) T cells. Anti-MHC class II Abs exert a direct effect on Tpi T cells causing an acute block in their proliferation. The inhibition does not involve apoptosis and is also entirely reversible. The rapid arrest of DNA synthesis caused by anti-MHC class II Abs is not due to interference with the state of activation of the T cells since the transcriptional activator NF-kappa B remains activated in arrested cells. In addition, interleukin 2 (IL-2), IL-2R, and c-myc gene expression are also unaffected. By analyzing the cell-cycle phase distribution of inhibited cells, it could be shown that cells in all phases of the cell cycle are inhibited. The signal transduction pathway that results in inhibition was shown to be independent of protein kinase C and extracellular Ca2+. Tyrosine kinase inhibitors, however, partly reduced the level of inhibition and, conversely, phosphatase inhibitors enhanced it. The possible relevance of this phenomenon in other systems is discussed.
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PMID:Antibodies against major histocompatibility complex class II antigens directly inhibit the growth of T cells infected with Theileria parva without affecting their state of activation. 835 52

Membrane Ig (mIg) functions in binding and internalization of Ag for subsequent processing and presentation to T cells, as well as in transmembrane transduction of signals that lead to cell activation, proliferation, and differentiation. Tyrosine kinase activation and subsequent phosphatidylinositol hydrolysis and Ca2+ mobilization are clearly important intermediary events in receptor-mediated B cell activation. However, many details of the cellular signal transduction pathways utilized by this receptor are not resolved. Recent studies that demonstrated co-capping of mIg and the proto-oncoprotein p21ras suggested that this low m.w. GTP-binding protein may function in mIg-mediated signal transduction. p21ras has been implicated in some but not all protein tyrosine kinase/phospholipase C involving signaling pathways. To explore the potential role of p21ras in B cell Ag receptor-mediated signaling, we assessed the effect of Ag receptor ligation on the proportion of p21ras in the active GTP-bound state. We present evidence that p21ras is activated by mIgM and mIgG cross-linking by anti-receptor antibodies as well as by Ag. Depending upon the stimulus employed, this response is detectable within 1 min and occurs with similar kinetics as inductive protein tyrosine phosphorylation and Ca2+ mobilization. Ag dose dependence of this response is similar to that of inductive protein tyrosine phosphorylation. In these cells p21ras is also activated by PMA suggesting that p21ras activation after receptor cross-linking may be mediated by an effector molecule that functions downstream from protein kinase C (PKC). However, the kinetics of p21ras activation after mIg cross-linking are inconsistent with the possibility that PKC functions as the sole mediator of p21ras activation in this system. Finally, under conditions in which the PKC inhibitor calphostin C blocks PMA-induced p21ras activation, it does not inhibit Ag-induced p21ras activation. These data suggest that PKC effector mechanisms play a negligible role in p21ras activation during mIg-mediated signaling.
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PMID:B cell antigen receptor cross-linking triggers rapid protein kinase C independent activation of p21ras1. 840 14


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