UNIPROT:P15088 - FACTA Search

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

We have previously demonstrated that cyclosporine (CSA) and FK506 are able to selectively inhibit cytokine production by murine mast cell lines at concentrations comparable to those observed with thymus-derived lymphocytes (T cells). The selectivity of these effects were demonstrated by the failure of CSA and FK506 to inhibit cytokine-induced mast cell proliferation at equivalent or higher concentrations. In this report, we examined the ability of rapamycin (RAP) to inhibit cytokine production and cytokine-induced proliferation by a factor-dependent murine mast cell line and compared its activity to that of the structurally related macrolide FK506. The mast cell clone, MC/9, was stimulated to produce cytokines with phorbol myristate acetate plus the calcium ionophore A23187, or to proliferate in response to exogenous cytokines such as interleukin-3 and interleukin-4, produced by the helper T cell clone D10.G4. RAP did not inhibit cytokine production by MC/9, even at concentrations greater than 1000 nM. FK506 and CSA inhibited cytokine production with IC50 of 0.8 and 16.2 nM, respectively. In contrast to its lack of effect on cytokine production, RAP potently inhibited cytokine-induced proliferation of MC/9 cells with an IC50 of 1.9 nM. Because RAP and FK506 are structurally related and yet have divergent biological effects, we examined the ability of RAP to antagonize inhibitory effects of FK506 on mast cell cytokine production and the ability of FK506 to antagonize inhibitory effects of RAP on cytokine-induced mast cell proliferation. The addition of RAP in molar excess reversed inhibition of mast cell cytokine production mediated by FK506, but not that of CSA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rapamycin and FK506 differentially inhibit mast cell cytokine production and cytokine-induced proliferation and act as reciprocal antagonists. 137 61

Staphylococcal enterotoxin B (SEB) was tested in rodent mast cell cultures for the release of serotonin. Both rat RBL-2H3 mast cells and murine peritoneal cells released serotonin after SEB stimulation in culture. Release of serotonin in RBL-2H3 cells depended on the concentration of SEB; an appreciable release was seen at 50 micrograms/ml. The release of serotonin was not due to cell death. Serotonin release could be enhanced by bradykinin but not by vasoactive intestinal peptide, substance P, lipopolysaccharide from Salmonella typhimurium, the calcium ionophore A23187, acetylcholine, adenosine, 5-hydroxyeicosatetraenoic acid, indomethacin, or phorbol myristate acetate. SEB bound directly to the membrane of RBL-2H3 mast cells, and the SEB-binding site, the presumptive receptor, appeared to be a protein. The SEB receptor could not be capped under membrane-capping conditions, and serotonin release could not be enhanced by attempts to cross-link the receptor. These results suggest that mast cells may be an important cell type involved in SEB toxicosis and that release of serotonin may be enhanced by activation of the kinin-kallikrein system.
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PMID:Effects of staphylococcal enterotoxin B on rodent mast cells. 137 85

Our previous studies have suggested that phosphatidylcholine-specific phospholipase D (PtdCho-PLD) plays a role in IgE-dependent diacylglycerol production, protein kinase C activation and mediator release in the RBL 2H3 mast cell line. We have extended these studies to examine the mechanisms by which PtdCho-PLD may be regulated in these cells. RBL 2H3 cellular lipids were labeled with [14C]arachidonic acid or [3H]myristic acid, then PtdCho-PLD activity was monitored by the formation of radiolabeled phosphatidylethanol when ethanol was included in the incubation medium. Trinitrophenol-ovalbumin conjugate (10 ng/ml), when added to cells previously sensitized with anti-(trinitrophenelated mouse IgE) (0.5 microgram/ml), ionomycin (1 microM) and thapsigargin (0.1 microM), stimulated PtdCho-PLD activation and mediator release in cells incubated in buffer containing 1.8 mM calcium, but not in cells incubated in calcium-free, buffer. Phorbol 12-myristate 13-acetate (0.1 microM) activated PtdCho-PLD in both buffers, but on its own did not trigger mediator release. When intracellular calcium was chelated with 5,5'-dimethyl-1,2-bis(2- aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, trinitrophenol-ovalbumin conjugate failed to activate PtdCho-PLD and histamine release. Similarly, down-regulation of protein kinase C activity by long-term exposure to the phorbol ester (0.1 microM) and preincubation of the cells with protein kinase inhibitors resulted in the loss of the trinitrophenol-ovalbumin response on PtdCho-PLD activity and histamine release. Taken together, the above results suggest that IgE-dependent PtdCho-PLD activation is dependent on both activation of protein kinase C and a rise in the intracellular free calcium concentration.
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PMID:The role of calcium and protein kinase C in the IgE-dependent activation of phosphatidylcholine-specific phospholipase D in a rat mast (RBL 2H3) cell line. 137 1

Incubation of bovine serum albumin (BSA), rat serum albumin or rat plasma with medium conditioned by endotoxin stimulated rat peritoneal macrophages produced an activity that released histamine from isolated rat serosal mast cells. The amount of histamine-releasing activity (HRA) produced increased with the length of the incubation period, with the concentration of albumin, with the number of macrophages stimulated, and with the duration of exposure of the macrophages to endotoxin. Moreover, the formation of the HRA showed a dependency on the pH of the incubation medium with an optimum at pH 4.5. Boiling the medium conditioned by stimulated macrophages before its incubation with albumin or including the acid protease inhibitor, pepstatin with the conditioned medium prevented the formation of HRA. The generation of HRA was not inhibited by pretreatment of the macrophages with the inhibitor of protein synthesis, cycloheximide. Media from macrophages not stimulated with endotoxin failed to generate HRA. Histamine release from mast cells in response to the HRA was inhibited by pretreatment of the cells with antimycin A and deoxyglucose or by preincubation in Ca-free Locke's solution containing a calcium chelating agent. When injected intradermally into anesthetized Evan's Blue treated rats, the generated HRA produced a change in vascular permeability that was prevented by the H1 antagonist, diphenhydramine. Treatment of the HRA with carboxypeptidase A reduced its ability to stimulate histamine release from mast cells. Histamine-Releasing Peptide (HRP), a neurotensin-related octapeptide, shown previously by us to be formed by the action of cathepsin D or pepsin on albumin, was identified by radioimmunoassay in acid:acetone extracts of the histamine-releasing activity. It is concluded that the formation of HRA is due to the actions of enzymes released from macrophages acting on albumin. It is suggested that such histamine-releasing activity could be formed during the later stages of the inflammatory response and that HRP is one of the peptides present.
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PMID:Formation of histamine-releasing activity from albumin by medium conditioned by endotoxin-stimulated rat peritoneal macrophages. 138 Jul 64

Investigations of mast cell biology have often used immortalized cultured cells which are continuously proliferating. In vivo, however, only 2% or fewer tissue mast cells are actively dividing. We used aphidicolin, an inhibitor of DNA polymerase to induce a proliferative arrest of murine mast cells characterized by an inhibition of cell division and thymidine incorporation, with accumulation of cells in G1 and early S phase of the cell cycle. Uridine incorporation and cell viability were not significantly impaired. DNA synthesis and cell division both resumed rapidly upon removal of the drug. Morphometric analysis demonstrated that cell size, granule size, and number of granules per cell were all increased in aphidicolin-treated cells. Proliferative arrest also produced a 14-fold increase in cellular histamine content, but did not alter the proteoglycans synthesized by the cell. The level of c-myc mRNA was reduced in aphidicolin-arrested cells, but returned to the level observed in untreated cells within 1 hr of removal of the drug. In contrast, the constitutive steady-state RNA levels of tumour necrosis factor-alpha (TNF-alpha), B2-microglobulin, actin, and the c-Ha-ras and c-fes protooncogenes were not altered. Aphidicolin-induced proliferative arrest did not prevent the induction of TNF-alpha, interleukin-6 (IL-6) and c-fos genes in response to calcium ionophore. Both the magnitude and induction kinetics of these messages were similar in aphidicolin-treated and untreated cells. We conclude that proliferative arrest results in morphological and biochemical changes suggestive of cellular maturation, but inhibition of cell division alone is not sufficient to alter mast cell phenotype. Although optimal c-myc expression appears to require active proliferation, cytokine gene induction can occur in non-dividing cells. These data suggest that the proliferative quiescence of in vivo mast cells should not preclude their involvement in biological events via elaboration of multi-functional cytokines.
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PMID:Aphidicolin-induced proliferative arrest of murine mast cells: morphological and biochemical changes are not accompanied by alterations in cytokine gene induction. 138 41

The high affinity receptor for IgE (Fc epsilon RI) is present on mast cells and basophils, and the aggregation of IgE-occupied receptors by Ag is responsible for the release of allergic mediators. The Fc epsilon RI is composed of at least three different subunits, alpha, beta, and gamma, with the alpha subunit binding IgE. The series of biochemical events linking receptor aggregation to the release of mediators has not been fully delineated. As a step towards understanding these processes, and for the development of functional cell lines, we have transfected the human Fc epsilon RI alpha subunit into the rat mast cell line RBL 2H3. These human Fc epsilon RI alpha-transfected cell lines have been characterized with respect to the association of the human alpha subunit with endogenous rat beta and gamma subunits and the ability of aggregated Fc epsilon RI alpha subunits to mediate a variety of biochemical events. The signal transduction events monitored include phosphoinositide hydrolysis, Ca2+ mobilization, tyrosine phosphorylation, histamine release, and arachidonic acid metabolism. In all cases, the events mediated by aggregating human Fc epsilon RI alpha subunits were indistinguishable from those produced via the rat Fc epsilon RI alpha. These results demonstrate that the human Fc epsilon RI alpha subunit can functionally substitute for the rat Fc epsilon RI alpha subunit during signal transduction. The availability of this cell line will provide a means of evaluating potential Fc epsilon RI antagonists.
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PMID:Conservation of signal transduction mechanisms via the human Fc epsilon RI alpha after transfection into a rat mast cell line, RBL 2H3. 138 4

Investigations of calmodulin involvement in cell responses has been complicated by the lack of selective calmodulin antagonists. A novel inhibitor, CGS 9343B, reportedly without influence on protein kinase C, is used in the present study of mast cell responses. The histamine release induced by antigen and compound 48/80 in the presence of calcium was enhanced by 10-20 microM CGS 9343B and inhibited by higher concentrations. Only inhibitory effects on the response to compound 48/80 in the absence of calcium and to the ionophore A23187 were observed, the latter being inhibited by 20 microM CGS 9343B. The influence on responses to combinations of the phorbol ester TPA and the ionophore A23187 was more complex, giving rise to enhancement at lower and inhibition at higher concentrations of CGS 9343B in a manner which depended on the experimental conditions. Unlike previously used calmodulin antagonists, CGS 9343B is devoid of detergent effects and without serious metabolic interference. The inhibitor seems useful to reveal differences in the mechanisms involved in responses to various histamine liberators. Our results conform with an inhibition of calmodulin by CGS 9343B but are at present inconclusive.
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PMID:Influence of CGS 9343B, an inhibitor of calmodulin activity, on histamine release from isolated rat mast cells. 138 72

In this study, we have attempted to determine whether mouse peritoneal mast cells released histamine in response to IL-3. Recombinant mouse (m)IL-3 induced histamine release from mouse peritoneal mast cells in a dose-dependent fashion. Histamine release did not occur in the absence of phosphatidyl serine (PS), and was dependent on PS concentrations. The release was 14.3 +/- 3.8 and 43.5 +/- 11.5% (mean +/- SEM, n = 5) at 1 nM IL-3 in the presence of 10 and 20 micrograms/ml of PS. Calcium was required for the response, and in the absence of calcium, significant histamine release was not observed. The kinetics were slower than those of anti-IgE-induced response. IL-3-induced histamine release reached a peak within 15 min, while that by anti-IgE reached 80% of the maximum in 3 min. Lower concentrations of IL-3, which failed to directly induce histamine release, did not enhance anti-IgE-induced histamine release. Other cytokines, including mIL-4, mIL-5, m-granulocyte-macrophage colony-stimulating factor, human (h)IL-1 alpha, hIL-1 beta and hIL-8, neither induced histamine release nor enhanced anti-IgE induced histamine release. IL-4 had no capacity to enhance IL-3-induced histamine release. These results suggest that locally produced IL-3 might modulate mast cell-related inflammation through histamine release from mast cells.
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PMID:Mouse IL-3 induces histamine release from mouse peritoneal mast cells. 138 45

Heparin has been shown to act as a competitive inhibitor of inositol 1,4,5-triphosphate (InsP3) receptors in various cell types. Because InsP3 is one of the second messengers involved in stimulus-secretion coupling in mast cells, it is possible that heparin may inhibit mast cell-mediated reactions. Therefore, in allergic sheep, we tested this hypothesis in two mast cell-mediated reactions induced by immunologic and nonimmunologic stimuli: immediate cutaneous reaction (ICR) and acute bronchoconstrictor response (ABR). In 12 sheep allergic to Ascaris suum antigen, the surface area of the skin wheal was determined 20 min after intradermal injection (0.05 ml) of increasing concentrations of specific antigen, compound 48/80, and histamine, without and after pretreatment with heparin (100, 300, or 1,000 U/kg i.v.). Antigen, compound 48/80, and histamine produced concentration-dependent increases in ICR. Heparin "partially" inhibited the ICR to antigen and compound 48/80 in a dose-dependent manner without modifying the ICR to histamine. The heparin preservative benzyl alcohol was ineffective. In 11 additional sheep, specific lung resistance was measured before and after inhalation challenges with antigen, compound 48/80, and histamine without and with aerosol heparin pretreatment (1,000 U/kg). Heparin blocked the antigen- and compound 48/80-induced bronchoconstriction without modifying the airway effects of histamine. In isolated human uterine mast cells, heparin inhibited the anti-immunoglobulin E- but not the calcium ionophore- (A23187) induced histamine release. These data suggest that heparin inhibits the ICR and ABR induced by stimuli that produce immunologic and nonimmunologic mast cell degranulation without attenuating the effects of histamine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunologic mast cell-mediated responses and histamine release are attenuated by heparin. 138 85

Mast cells have been studied extensively for their involvement in allergic reactions, where they secrete numerous powerful mediators in response to immunoglobulin E and specific antigens. However, they are also triggered by neuropeptides, they have been found in close contact with neurons, and they are activated in diseases such as angioedema, interstitial cystitis and irritable bowel disease, the prevalence of which is much higher in women. When tested on purified rat peritoneal mast cells, 17 beta-estradiol augmented secretion of histamine and serotonin, starting at 1 microM and in a dose-dependent manner, whether stimulated by the mast cell secretagogue compound 48/80 or the neuropeptide substance P. However, 17 beta-estradiol did not augment mast cell secretion stimulated by immunoglobulin E and specific antiserum indicating that immunologic stimulation is under different regulation. Testosterone inhibited secretion induced by compound 48/80. Tamoxifen, an estrogen receptor antagonist used in the treatment of breast cancer, inhibited serotonin and histamine release from purified rat peritoneal mast cells triggered by compound 48/80 or substance P. Tamoxifen also inhibited the increase in intracellular free Ca2+ originating from an influx of extracellular Ca2+ in response to compound 48/80. Moreover, tamoxifen antagonized the synergistic effect of phorbol myristate and the cation ionophore A23187 on mast cell secretion, suggesting that tamoxifen's inhibition may be due to regulation of protein kinase C activity. Tamoxifen may, therefore, have a beneficial effect in other neuroimmunoendocrine disorders both through estrogen receptor blockade and inhibition of mast cell secretion.
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PMID:Estradiol augments while tamoxifen inhibits rat mast cell secretion. 138 69

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