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)

Mast cell adenosine receptors are up-regulated functionally and numerically by chronic exposure to receptor antagonists, but their response to long-term treatment with receptor agonists has not been studied. To address this issue cultured mouse bone marrow-derived mast cells were exposed to N-ethylcarboxamide adenosine (NECA), an adenosine receptor agonist that augments stimulated mast cell mediator release. Cells grown for 3 days in 1 nM NECA responded normally to A23187 or antigen in releasing beta-hexosaminidase, but the ability of exogenous adenosine to potentiate this mediator release was attenuated markedly. This inhibition of adenosine responsiveness was partially present after 10 min of 1 microM NECA exposure and complete after 4 hr. The inhibitory effects could be reversed by washing NECA-exposed cells and returning them to culture for more than 4 hr. The adenosine present in the fetal calf serum coupled with deoxycoformycin attenuated mast cell adenosine responsiveness. The NECA-treated cells also exhibited a hyporesponsiveness to adenosine's augmentation of cell cyclic AMP content. This hyporesponsiveness was specific for adenosine receptors in that exogenous isoproterenol was able to increase cyclic AMP levels to a similar degree in both control and NECA-treated cells. Thus, chronic NECA exposure induces a homologous desensitization of mast cell adenosine receptors.
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PMID:Inhibition of mast cell adenosine responsiveness by chronic exposure to adenosine receptor agonists. 282 21

Adenosine potentiates mouse bone marrow-derived mast cell mediator release by a mechanism that appears to involve cell surface adenosine receptors. In an attempt to explore possible interactions between G proteins and adenosine receptors, mast cells were incubated with activated pertussis toxin, an agent that ADP-ribosylates and inactivates some G protein subtypes, prior to challenge with specific antigen or the calcium ionophore A23187. Mast cells preincubated with 10 ng/ml pertussis toxin for at least 2 hr exhibited an inhibition of antigen-induced beta-hexosaminidase and leukotriene C4 release. The ability of adenosine to potentiate beta-hexosaminidase release was attenuated to an even greater degree by pertussis toxin. A23187-stimulated mediator release was not altered by pertussis toxin, although a modest inhibition of the ability of adenosine to enhance A23187-induced beta-hexosaminidase release was observed in pertussis toxin-treated mast cells. Although up to 24-hr exposure to 100 ng/ml pertussis toxin did not alter resting mast cell cyclic AMP levels, the ability of adenosine to elevate cell cyclic AMP concentrations was diminished markedly by doses of the toxin higher than those required to affect mediator release. Neither antigen-stimulated intracellular free calcium level augmentation alone nor the additional potentiation of these levels by adenosine was changed by pertussis toxin treatment. Inositol trisphosphate was generated by mast cells stimulated by IgE-mediated mechanisms, but a preincubation with pertussis toxin did not influence its generation. In summary, adenosine appeared to produce some of its alterations in mast cell biochemical events by a mechanism that was partially inhibited by pertussis toxin. The nature of the G protein linked to the mast cell adenosine receptor is yet to be determined.
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PMID:Alteration of mast cell responsiveness to adenosine by pertussis toxin. 284 50

Stimulated mast cells produce and release adenosine, and the release of mast cell mediators is potentiated by adenosine, yet very little is known regarding mast cell purine metabolism. Because 5-amino-4-imidazolecarboxamide riboside (AICA riboside) has been shown to alter adenosine metabolism and accelerate the repletion of ATP pools in other tissues, its effects on mast cell function were examined. Neither simultaneous addition of A23187 and AICA riboside nor a 1-hr preincubation with AICA riboside altered mast cell beta-hexosaminidase release to an appreciable degree. However, mouse bone marrow-derived mast cells cultured for 2 or more days in the presence of 1-100 microM AICA riboside exhibited a markedly attenuated mediator release response to A23187 compared to control cells with or without the additional presence of adenosine. IgE-mediated leukotriene C4 generation from AICA riboside-exposed mast cells was even more profoundly inhibited without affecting cell viability or resting mediator content. An unusual ribonucleotide triphosphate previously identified in folate-depleted cells, 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranosyl 5'-triphosphate (ZTP), has been identified in AICA riboside-treated mast cells as well. Although the mechanism of this global inhibition of mast cell mediator release by chronic AICA riboside treatment is not clear, alterations in mast cell purine metabolism may prove to be important in the treatment of allergic diseases.
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PMID:Inhibition of mast cell mediator release by 5-amino-4-imidazolecarboxamide riboside. 294 80

Ribavirin (1-beta-D-ribofuranosyl-1,2-4-triazole-3-carboxamide) is a promising antiviral agent as well as a structural analog of guanosine. Although at different concentrations it has been reported to induce either immunosuppression or immune stimulation, its effects upon immediate hypersensitivity reactions are largely unknown. Because purine metabolism appears to be important in mast cell secretion, the effects of ribavirin on mouse bone marrow-derived mast cell functions were investigated. When ribavirin was added to mast cells at the time of stimulation with A23187 or specific antigen, no effect on the release of beta-hexosaminidase, a preformed mediator, was evident. However, mast cells cultured in 1 to 20 microM ribavirin for 1 to 7 days exhibited dose- and time-dependent inhibitions of stimulated beta-hexosaminidase and leukotriene C4 releases without altering mast cell mediator content. This inhibition occurred even when ribavirin had no effect on cell growth. A concomitant decrease in antigen-challenged mast cell intracellular Ca concentration was also observed after ribavirin treatment. Chronic ribavirin exposure in vitro inhibits mast cell secretory processes stimulated by both immunoglobulin E- and nonimmunoglobulin E-related signals. Its precise mechanism of action and any potential efficacy as an antiallergic agent remain to be elucidated.
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PMID:Ribavirin inhibits mast cell mediator release. 294 69

The functional and biochemical characterization of rat bone marrow derived mast cells (RBMMC) confirms both species-related differences between rat and mouse bone marrow-derived mast cells (MBMMC) as well as mast cell heterogeneity in a single species. Such RBMMC have the staining characteristics of mucosal mast cells and contain the mucosal mast cell protease. The RBMMC release the preformed granule mediator beta-hexosaminidase both in response to immunologic stimulation with 200 ng Ag (net release 15.8 +/- 3.8%) and in response to 1 microM calcium ionophore A23187 (net release 21.8 +/- 6.8%). However, compound 48/80, substance P, and somatostatin did not induce mast cell degranulation. In experiments with optimal beta-hexosaminidase release, the RBMMC generated similar quantities of the newly formed arachidonic acid metabolites leukotriene C4 and PGD2 when stimulated with either Ag or calcium ionophore A23187. The RBMMC incorporate [35S]sulfate into proteoglycans consisting of 90% chondroitin sulfates and 10% heparin. The chondroitin sulfates were comprised of chondroitin 4 sulfate and chondroitin sulfate diB sulfated disaccharides in a ratio of 4/1. Although we show that RBMMC and MBMMC share a low histamine content, functional IgE receptors and unresponsiveness to cromolyn and selective secretagogues (compound 48/80, substance P, and somatostatin), we also provide evidence that RBMMC differ from MBMMC in their profile of newly generated mediators, preformed granule proteoglycan, and lack of proliferative response to mouse IL-3.
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PMID:Functional and biochemical characterization of rat bone marrow derived mast cells. 297 57

Rat serosal mast cell adenosine receptors were characterized by [3H]adenosine binding to cell membrane particulates, and functional changes in mast cell mediator release and cyclic AMP levels were assessed, utilizing various adenosine analogs. [3H]adenosine binding to sonicated mast cell membrane preparations at 0 degrees C in the presence of deoxycoformycin is linear with initial cell number, rapid and reversible. The cells display 16,400 +/- 1600 high affinity [3H]adenosine binding sites/cell, equivalent to 118 fmol bound/mg protein, with an equilibrium dissociation constant of 27.97 +/- 3.0 nM. Competition studies reveal that adenosine greater than 2-chloroadenosine greater than NECA greater than L-PIA greater than D-PIA in competing for [3H]adenosine binding sites and that aminophylline and cromolyn sodium also bind to the putative receptor. Adenosine and its analogs, NECA, and L-PIA, appear to activate adenylate cyclase in resting mast cells by raising cyclic AMP, suggesting an Ra cell surface adenosine receptor subtype; these same analogs potentiate mast cell B-hexosaminidase release stimulated by specific antigen. The identification of rat mast cell [3H]adenosine binding sites whose stimulation augments resting cell cyclic AMP levels and antigen-induced mediator release suggests that these receptors may be important in the biochemical mechanisms of allergic diseases. The ability to assess the number and affinity of mast cell adenosine receptors will enable one to monitor receptor alterations during pharmacologic manipulation and in disease states.
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PMID:[3H]Adenosine binding to rat mast cells--pharmacologic and functional characterization. 300 Jan 51

Aminophylline-treated mouse bone marrow-derived mast cells exhibit a hyperresponsiveness to adenosine addition (10(-6) to 10(-4) mol/L) at the time of secretagogue challenge coincident with an up regulation of adenosine receptor numbers. This effect on beta-hexosaminidase release is maximal at 100 mumol/L of aminophylline, evident after 5 days of aminophylline exposure, and reversed by 6 days after washing. Neither radiolabeled arachidonic acid nor leukotriene C4 release in the absence or presence of adenosine was altered by aminophylline treatment. Although cAMP levels were dynamically changed by adenosine or secretagogue, these changes were not different in the two cell populations; resting and challenged mast cell adenosine levels were similarly unaffected by aminophylline. The long-term action of aminophylline on mouse bone marrow-derived mast cells appears to be primarily on adenosine receptors and thereby on preformed mediators, and this action may have some importance in the pathophysiology and treatment of asthma.
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PMID:Aminophylline exposure alters mouse bone marrow-derived mast cell adenosine responsiveness. 302 Jan 10

Exposure to ethanol in man has been linked to an alteration of the immune surveillance system and reduced ability of the macrophage to undergo phagocytosis. Since ethanol has been suggested to alter membrane function and inhibit the production of calcium ionophore stimulated synthesis of prostaglandins and leukotrienes by the human neutrophil and transformed murine mast cell, the dose response effect of ethanol on the biosynthesis of icosanoids by the peritoneal macrophage during zymosan phagocytosis was studied. Peritoneal macrophages from two inbred strains of mice derived from a common stock (HS) and selected for sensitivity to ethanol (short sleep [SS]/long sleep [LS]) were studied. Zymosan phagocytosis was found to lead to synthesis of LTC4 (70 ng/10(6) cells), 6-keto-PGF1 alpha (5 ng/10(6) cells) and PGE2 (3 ng/10(6) cells). For the HS macrophage, ethanol caused a dose dependent inhibition of these lipid mediators as well as inhibition of phagocytosis and release of beta-hexosaminidase. However, a difference was observed in arachidonate metabolism stimulated by phagocytosis between the LS and SS mice below 100 mM ethanol. The SS mouse had a 50% inhibition of cyclooxygenase products at 86 mM ethanol with no inhibition of lipoxygenase metabolites. The LS mice had a trend suggesting increased lipoxygenase metabolites below 100 mM ethanol. At these levels of ethanol which can be found in man, these results suggest there may be differential production of lipid mediators under genetic control.
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PMID:The effect of ethanol on arachidonic acid metabolism in the murine peritoneal macrophage. 311 Aug 61

Mouse bone marrow-derived mast cells passively sensitized with monoclonal IgE released paf-acether (platelet-activating factor) and beta-hexosaminidase when challenged with the specific antigen. The formation and the release of paf-acether followed an early increase in the activity of the acetyltransferase, the main enzyme in paf-acether biosynthesis. The antigen-induced activation of the acetyltransferase was dependent on physiologic temperature and on the presence of Ca2+. By using microsomal fractions from unchallenged and challenged mast cells, the Vmax values were 3.5 and 12.0 nmol/min/mg of protein, respectively, whereas in both cases a Km value for acetyl-coenzyme A of 172 microM was measured. The stimulation of acetyltransferase could be mimicked in vitro under experimental conditions which favor phosphorylation, i.e. adding ATP and Mg2+ to lysates from unchallenged mast cells. In contrast, ATP and Mg2+ were uneffective on lysates from challenged cells that exhibited high level of acetyltransferase activity, suggesting that phosphorylation of the enzyme already took place at the time of cell stimulation. Moreover, addition of alkaline phosphatase to microsomal fraction obtained from either antigen-challenged mouse bone marrow-derived mast cells or unchallenged cells, resulted in 52% and 43% loss of acetyltransferase activity, respectively. Phorbol myristate acetate treatment of cells doubled the enzyme activity supporting the phosphorylation hypothesis. Thus, we report on the immunologic activation of a key enzyme for paf-acether synthesis and on the mechanism of this activation in a pure mast cell population. A link between bridging of IgE receptors and the activation of an enzyme critical to the formation of a lipid mediator is thereby evidenced.
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PMID:Biosynthesis of paf-acether. IX. Role for a phosphorylation-dependent activation of acetyltransferase in antigen-stimulated mouse mast cells. 358 83

By using a conventional spectrophotometric assay with hippuryl-L-phenylalanine as the substrate, 10(6) BALB/c mouse serosal mast cells possessed 1.5 +/- 0.43 U (mean +/- SE, n = 5, range = 0.48 to 2.5) of carboxypeptidase A activity, while T cell factor-dependent, mouse bone marrow-derived mast cells (BMMC) had barely detectable levels of 0.01 +/- 0.001 U/10(6) cells (mean +/- SE, n = 3). In order to characterize the carboxypeptidase A present in the BMMC, a sensitive assay was developed that used angiotensin I as the substrate and reverse phase-high performance liquid chromatography to separate and quantify production of the cleavage product des-leu-angiotensin I. Using this assay, mouse BMMC carboxypeptidase A had a neutral to basic pH optimum and hydrolyzed angiotensin I with a Km of 0.78 mM. The antigen-induced net percent release of carboxypeptidase A from IgE-sensitized BMMC was proportional to that of the secretory granule component beta-hexosaminidase which indicates a secretory granule location for the exopeptidase. As defined by exclusion during Sepharose CL-2B chromatography, carboxypeptidase A was exocytosed as a greater than 1 X 10(7) m.w. complex bound to proteoglycans. Because BMMC cocultured with mouse skin-derived 3T3 fibroblasts are known to undergo an increase in histamine content and biosynthesis of 35S-labeled heparin proteoglycans, carboxypeptidase A activity was measured during BMMC/fibroblast coculture for 0 to 28 days. The carboxypeptidase A activity increased progressively during 28 days of co-culture from 0.004 +/- 0.002 U/10(6) starting BMMC (mean +/- SE, n = 3) to 0.36 +/- 0.10 U/10(6) co-cultured mast cells. These findings indicate that carboxypeptidase A, a neutral protease, is exocytosed from the secretory granules of mouse mast cells bound to proteoglycan and is increased during the in vitro differentiation of mouse BMMC from mucosal-like mast cells to serosal-like mast cells.
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PMID:Carboxypeptidase A in mouse mast cells. Identification, characterization, and use as a differentiation marker. 368 Sep 50


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