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: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The major part of mast cell actin is Triton-soluble and behaves as a monomer in the DNase I inhibition assay. Thus, actin exists predominantly in monomeric or short filament form, through filamentous actin is clearly apparent in the cortical region after rhodamine-phalloidin (RP) staining. The minimum actin content is estimated to be approximately 2.5 micrograms/10(6) cells (cytosolic concentration approximately 110 microM. After permeabilization of mast cells by the bacterial cytolysin streptolysin-O, approximately 60% of the Triton-soluble actin leaks out within 10 min. However, the staining of the cortical region by RP remains undiminished, and the cells are still capable of exocytosis when stimulated by GTP-gamma-S together with Ca2+. In the presence of cytochalasin E the requirement for Ca2+ is decreased, indicating that disassembly of the cytoskeleton may be a prerequisite for exocytosis. This disassembly is likely to be controlled by Ca2(+)-dependent actin regulatory proteins; their presence is indicated by a Ca2(+)-dependent inhibition of polymerization of extraneous pyrene-G-actin by a Triton extract of mast cells. The effect of cytochalasin E on secretion is similar to that of phorbol myristate acetate, an activator of protein kinase C; both agents enhance the apparent affinity for Ca2+ and cause variable extents of Ca2(+)-independent secretion. Exposing the permeabilized cells to increasing concentrations of Ca2+ caused a progressive decrease in F-actin levels as measured by flow cytometry of RP-stained cells. In this respect, both cytochalasin E and phorbol ester mimicked the effects of calcium. GTP-gamma-S was not required for the Ca2(+)-dependent cortical disassembly. Thus, since conditions have not yet been identified where secretion can occur in its absence, cortical disassembly may be essential (though it is not sufficient) for exocytosis to occur.
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PMID:Changes in the state of actin during the exocytotic reaction of permeabilized rat mast cells. 239 68

Bridging of cell-bound IgE antibody molecules on colony-stimulating factor-dependent mouse mast cell line (PT-18) cells by multivalent antigen induces phospholipid methylation, a transient rise in intracellular cAMP, intracellular mobilization and uptake of Ca2+, and formation of diacylglycerol followed by histamine release. Exposure of the sensitized cells to antigen also induces a substantial increase in protein kinase C activity in the plasma membrane, which is accompanied by a slight decrease in the enzyme in cytosol. Protein kinase C activity in the membrane fraction reached maximum within 30 sec after antigen challenge and then gradually declined. The increase of the enzyme activity in the membrane could not be explained by a shift of the enzyme from cytosol, and it suggested that bridging of IgE-receptor may induce a modulation of existing enzyme to a state of higher catalytic activity. Phorbol 12-myristate 13-acetate also induced a rapid but persistent increase in protein kinase C activity in the membrane fraction of mast cells. However, the increase in the enzyme activity in the membrane was accompanied by a marked decrease in the enzyme in cytosol.
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PMID:Antigen-induced increase in protein kinase C activity in plasma membrane of mast cells. 241 83

The phorbol ester 12-0-tetradecanoylphorbol-13-acetate (TPA) induces a slow secretion of histamine from rat peritoneal mast cells. This secretion is dose-dependent from 0.3 to 10 ng/ml. Higher doses are less efficient. The absence of magnesium and/or potassium increases mast cell exocytosis induced by TPA. In the absence of both potassium and magnesium, extracellular calcium concentrations above 3 X 10(-5)M inhibit the effect of TPA. The sensitivity of mast cells to other inducers of histamine release is modified by pretreatment with TPA. The ionophore A23187-induced secretion is potentiated or inhibited according to the dose of TPA and the concentration of extracellular calcium. The absence of potassium prevents the potentiating effect of TPA. The secretory effect of compound 48/80 is decreased by pretreatment of mast cells with TPA. This effect is more potent in the absence of potassium. These results suggest that the activation of protein kinase C acts as a bidirectional regulator of mast cell exocytosis and is modulated by transmembrane gradients of monovalent and divalent ions. Its inhibitory effects might be favoured by the highest levels of cytosolic calcium and could be related to the inhibition of a guanine nucleotide regulatory protein involved in the transduction of the receptor signal to phosphatidylinositides turnover.
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PMID:Dual effect of phorbol ester on serosal mast cell exocytosis: interactions between ionic gradients and protein kinase C. 243 10

Three types of agonists; receptor-mediated concanavalin A), direct (phorbol ester), and membrane-perturbing (compound 48/80), elicit histamine secretion from rat peritoneal mast cells. We tested whether activation of the mast cells by these agents is accompanied by subcellular redistribution of protein kinase C. Phorbol ester treatment predictably caused a profound decrease of phospholipid/Ca2+-dependent histone kinase activity in the cytosol and a concomitant increase of [3H]PMA-binding capacity in the membrane fraction, in a time- and concentration-dependent manner. Similar, but less marked effects were observed with stimulations by concanavalin A and compound 48/80. When mast cells labeled with [32P] and then stimulated with the agents, phosphorylation of a 50,000-Dalton protein was enhanced in the membrane fraction. These results suggest that protein kinase C may play a role in mast cell activation through phosphorylation of the membrane protein.
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PMID:Redistribution of phospholipid/Ca2+-dependent protein kinase in mast cells activated by various agonists. 243 82

1. RHC 80267 and R59 022 are selective inhibitors of diacylglycerol (DAG) lipase and DAG kinase enzymes respectively. These inhibitors were examined with regard to their effects on oleoylacetylglycerol (OAG)-and anti-IgE- induced histamine secretion in rat peritoneal mast cells. 2. RHC 80267, 10 microM and R59 022, 50 microM both enhanced OAG-induced histamine release by 30% and 40% respectively. 3. In the concentration range 3-30 microM, R59 022 enhanced anti-IgE-induced histamine release by up to about 40%, whereas RHC 80267 was without effect. 4. The enhancement of anti-IgE-induced histamine release by R59 022 is consistent with a role for protein kinase C in transducing immunological signals to rat peritoneal mast cells. 5. The lack of effect of RHC 80267 in this situation may indicate that in the mast cell, DAG kinase is more active than DAG lipase in degrading physiological levels of DAG.
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PMID:The actions of inhibitors of diacylglycerol kinase and diacylglycerol lipase on histamine release from rat peritoneal mast cells. 244 87

As assessed by immunoprecipitation analyses, expression of the epitope recognized by the rat mAb B23.1 is approximately sevenfold greater on the surface of mouse IL-3-dependent bone marrow culture-derived mast cells (BMMC) than on serosal mast cells (SMC) obtained directly from the peritoneal cavity. Immunoprecipitation of B23.1 antibody-binding molecules from Na[125I] surface-labeled BMMC and SMC followed by sizing on SDS-polyacrylamide gels under reducing conditions demonstrated that the epitope is located on molecules of 49,000 and 47,500 Mr, respectively. An additional immunoprecipitated molecule of 42,000 Mr was detected from BMMC intrinsically radiolabeled with [35S]methionine, and pulse-chase analyses revealed that this species was a biosynthetic precursor of the 49,000 Mr cell surface form of the Ag. Treatment of the immunoprecipitated 42,000 and 49,000 Mr forms with endoglycosidase F reduced the Mr of both to 37,000, as did intrinsic radiolabeling of BMMC in the presence of tunicamycin, indicating that both the 42,000 Mr precursor form and the 49,000 Mr cell surface molecule (gp49) contained N-linked carbohydrate. Activation of [32P]orthophosphate-labeled BMMC by sensitization with mouse monoclonal IgE anti-TNP and challenge with TNP-BSA or by exposure to the calcium ionophore A23187 elicited the rapid phosphorylation of gp49 but not of its precursor forms, as did treatment of the cells with PMA. Elution of phosphorylated and immunoprecipitated gp49 from SDS-polyacrylamide gels followed by partial acid hydrolysis of the protein and phosphoamino acid analysis by high voltage thin-layer electrophoresis on cellulose plates indicated that serine, but not threonine or tyrosine, was phosphorylated upon stimulation of BMMC with IgE/Ag, calcium ionophore, or PMA. Cholera toxin did not elicit phosphorylation of gp49. These data suggest that gp49, a plasma membrane glycoprotein preferentially expressed by mouse BMMC, may be either directly or indirectly phosphorylated via protein kinase C during mast cell activation-secretion.
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PMID:Activation- and phorbol ester-stimulated phosphorylation of a plasma membrane glycoprotein antigen expressed on mouse IL-3-dependent mast cells and serosal mast cells. 246 32

Rat mast cells were challenged with compound 48/80 or calcium ionophore A23187, and protein kinase C activity in the cell pellets and the amount of histamine release into the supernatant were measured. After stopping the reaction, rat mast cells were lysed in a medium which prevents alterations in phosphorylation and dephosphorylation during sample processing. Histamine was significantly released from compound 48/80-stimulated mast cells at 30 s after the stimulation. In parallel with this, protein kinase C activity in the cell pellets increased at 30 s and 1 min and returned to basal value 3 min after the stimulation. When mast cells were incubated with various concentrations of 48/80 for 30 s, the amount of histamine release and protein kinase C activity increased dependently on the concentration of 48/80. Significant histamine release from A23187-stimulated mast cells was found at 1 min after the stimulation. Also protein kinase C activity in the cell pellets increased at 1 min and returned to basal value 5 min after the stimulation. A reduction of cytosolic protein kinase C activity was observed upon 48/80 treatment in a time- and concentration-dependent manner. Further, staurosporine, a potent inhibitor of protein kinase C, inhibited 48/80-induced histamine release in parallel with the inhibition of protein kinase C activity. These findings suggest that transient increase of protein kinase C activity may be involved in the mast cell activation process.
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PMID:Changes in protein kinase C activity during histamine release from activated rat mast cells. 246 47

Active tumor promoters such as 12-O-tetradecanoyl-phorbol-13-acetate (TPA) or membrane-diffusible synthetic diacylglycerols such as 1,2-dioctanoyl-sn-glycerol (DiC8), which specifically activate protein kinase C (PKC), inhibited the agonist-mediated rise in cytosolic calcium [(Ca2+)i] in a mast cell line (PB-3c) and human platelets. TPA inhibition of agonist-mediated calcium transient in platelets was readily reversed by the PKC inhibitor staurosporine. In contrast to DiCs, only active tumor promoters induced a time- and dose-dependent translocation of cytosolic PKC to membranes as determined both enzymatically or by immunoblotting. However, the concentration of TPA required to induce a half-maximal subcellular redistribution of immunodetectable PKC activity was an order of magnitude greater than the half-maximal dose required to inhibit the intracellular rise in (Ca2+)i. Thus, activation of PKC seems not to be exclusively coupled to its translocation to membranes, suggesting that translocation of PKC is mainly involved in the down-regulation of PKC. Down-regulation of immunoprecipitable PKC was studied in various human breast cancer cell lines that display differential growth inhibitory responses toward the tumor promoter. TPA induced translocation of [35S]methionine-prelabeled cytosolic 80 kDa PKC to membranes followed by complete degradation of the enzyme (t1/2 = 2 h) without affecting PKC synthesis. During prolonged TPA exposure, 20-80% of total 80 kDa PKC of control cells was still synthetized as a membrane-bound 74/80 kDa PKC doublet. Although both proteins lacked PKC activity and phorbol ester binding, they revealed structural similarity with the active 80 kDa PKC form of untreated cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of protein kinase C (PKC) in short- and long-term cellular responses: inhibition of agonist-mediated calcium transients and down-regulation of PKC. 246 82

Pretreatment of rat peritoneal mast cells with either Staurosporine or an analog K-252a, lead to a dose-related inhibition of histamine release when stimulated with Anti-IgE (IC50: Staurosporine = 110 nM; K-252a = 100 nM). In contrast, the two PKC inhibitors (1-1000 nM) failed to inhibit histamine release induced by compound 48/80 (0.5-1 micrograms/ml). Exposure of Anti-Asc-IgE sensitized mouse bone marrow derived mast cells to Asc-BSA lead to the release of both histamine (510 ng +/- 12.6 ng/10(6) cells) and immunoreactive Leukotriene C4 (27.0 +/- 12.6 ng/10(6) cells). LTC4 release was inhibited by Staurosporine and K-252a with an IC50 of 75 nM for both compounds. Pretreatment of rat peritoneal mast cells with PMA 100 nM lead to a small but significant release of histamine (18.3 +/- 3.6%). Pretreatment of these cells with K-252a or Staurosporine lead to a dose related inhibition of histamine release with an ED50 of 10 nM for Staurosporine and 60 nM for K-252a. Treatment of rat peritoneal mast cells with the calcium ionophore A23187 lead to a significant release of histamine which was not inhibited by either of the two kinase inhibitors (0.1-1000 nM). The two kinase inhibitors also inhibited mouse bone marrow derived mast cell proliferation in response to IL-3 with IC50 of 80 nM for Staurosporine and 270 nM for K-252a.
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PMID:Differentiation of second messenger systems in mast cell activation. 247 99

Anti-IgE challenge of human basophils and mast cells reveals differences in the arachidonic acid metabolites produced and the biochemical mechanisms of release. Thus the basophil releases only leukotriene C and skin and bronchoalveolar lavage (BAL) mast cells release largely prostaglandin D whereas lung, gut and uterine mast cells generate both products. All cells demonstrate increased Ca2+ levels after excitation but basophils require smaller elevations than mast cells for equivalent release; in spite of this close association, changes in Ca2+ level can be dissociated from histamine release. The importance of protein kinase C activation (assessed by direct measurement, inhibitor studies and/or TPA-induced depletion) in release is variable, being critical in the basophil and showing progressively less importance in skin, lung and BAL mast cells. Different secretagogues utilize distinct biochemical mechanisms in the same mast cell. BAL mast cells are 1000-fold more sensitive and basophils 100-fold more sensitive to anti-IgE than lung, gut or skin mast cells. In keeping with this only BAL mast cells and basophils are sensitive to the IgE-dependent histamine-releasing factors. These in vitro findings accurately predict the observations made in human in vivo antigen challenge systems utilizing the upper and lower airways and the skin. They also provide insight into the pathogenesis of the early and late response to antigen.
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PMID:Heterogeneity of human Fc epsilon RI-bearing cells. 251 47


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