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)

Mast cells can play detrimental roles in the pathophysiology and mortality observed in anaphylaxis and other Th2-dominated allergic diseases. In contrast, these cells contribute to protective host defense mechanisms against parasitic worm infections. After IgE/Ag activation, mast cells can produce multiple cytokines that may enhance allergic inflammations, while a similar panel of Th2-related cytokines may support immunological strategies against parasites. Here we report that in primary mouse bone marrow-derived mast cells activated by ionomycin or IgE/Ag, the proinflammatory mediator IL-1 (alpha or beta) up-regulated production of IL-3, IL-5, IL-6, and IL-9 as well as TNF, i.e., cytokines implicated in many inflammatory processes including those associated with allergies and helminthic infections. IL-1 did not induce significant cytokine release in the absence of ionomycin or IgE/Ag, suggesting that Ca-dependent signaling was required. IL-1-mediated enhancement of cytokine expression was confirmed at the mRNA level by Northern blot and/or RT-PCR analysis. Our study reveals a role for IL-1 in the up-regulation of multiple mast cell-derived cytokines. Moreover, we identify mast cells as a novel source of IL-9. These results are of particular importance in the light of recent reports that strongly support a central role of IL-9 in allergic lung inflammation and in host defense against worm infections.
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PMID:In activated mast cells, IL-1 up-regulates the production of several Th2-related cytokines including IL-9. 1082 Feb 29

The exact functional contribution of the various inflammatory cells, mediators, cytokines and growth factors present in asthmatic airways to bronchial hyperresponsiveness remains to be fully established. Gene knock-out in vivo animal models can provide valuable information in this respect. Obviously, the closer the animal models mimic human disease, the more relevant this information will be. This constitutes the major limitation of murine asthma models to date. Key characteristics of asthma include from a morphological point of view, signs of an acute allergic airway inflammation in combination with airway remodeling, and from a functional point of view, hypersensitivity and hyperreactivity of the airways. Neither of these two main characteristics are properly mimicked in currently developed animal models. The degree of airway hyperresponsiveness obtained in these models is generally small, when compared to the degree of hyperresponsiveness observed in asthmatics. This probably relates at least in part, to the differences in airway inflammation, as in most of the murine models, only acute inflammatory changes are induced without chronic structural changes that might affect responsiveness to a large degree. The shortcomings of these models notwithstanding, gene knock-out models of asthma have revealed some interesting observations. The majority of these models has evaluated the exact functional role of TH2 cells, interleukin-4, interleukin-5 and IgE in the pathogenesis of allergic airway inflammation and airway hyperresponsiveness. Overall, it can be argued that neither the IgE/mast cell axis, nor the IL-5/eosinophil axis, are the cause of airway hyperresponsiveness, but that the T-cell in its own right is the main determining factor in establishing the degree of bronchial hyperresponsiveness.
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PMID:[The role of inflammation in the modulation of bronchial hyperreactivity. Potential therapeutic applications]. 1093 14

The principal function of the mucosal immune system is to protect the mucosa from exogenous aggression. It also involves a lymphocyte recirculation phenomenon allowing activated lymphocytes to migrate to the aggressed site, for example the bronchi, and to recirculate and colonize other sites of the mucosal immune system. In asthma, analysis of the other sites of the common mucosal immune system demonstrates asthma-like inflammatory reactions in the accessory salivary glands and the gut: lymphocyte infiltrate, mast cell activation, thickening of the basal membrane, accumulation and activation of eosinophils (gut), activation of endothelial cells expressing ICAM-1. Lymphocyte, eosinophil and mast cell infiltration is observed in the digestive tract as well as increased expression of IL-3, IL-5 and GM-CSF. The similarity of the anomalies observed in BALT and GALT tissues would suggest the entire mucosal immune system is implicated in asthma.
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PMID:[The common mucosal immune system in respiratory disease]. 1113 72

Mature human mast cells are tissue-residing, key effector cells of immediate allergic reactions. Moreover, mast cells have been recognized as a potent cellular source of multiple cytokines, suggesting an important role in immunoregulation and host defense. Here, we report on the regulation of mature human mast cells isolated from intestinal tissues by stem cell factor (SCF) and interleukin (IL)-4. SCF is substantially necessary for mast cell survival and induces marginal mast cell proliferation in vitro, whereas IL-4 by itself has no effects on mast cell survival or proliferation. Most interestingly, in synergy with SCF, IL-4 strongly enhances mast cell proliferation. In the presence of SCF, mast cells predominantly produce pro-inflammatory cytokines including tumor necrosis factor (TNF)-alpha, IL-1beta, IL-6, IL-8, IL-16, and IL-18. Addition of IL-4 to the culture medium induces the expression of Th2-type cytokines (IL-3, IL-5 and IL-13), and a downregulation of pro-inflammatory cytokines, namely IL-6. Furthermore, SCF by itself supports the predominance of the tryptase/chymase double-positive mast cell subtype MCTC whereas the addition of IL-4 supports the chymase negative MCT subtype. In conclusion, SCF may primarily regulate resident mast cell survival, whereas IL-4 may promote local proliferation of mast cells and their expression of Th2-type cytokines.
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PMID:Regulation of human intestinal mast cells by stem cell factor and IL-4. 1129 28

Late phase allergic response has been implicated in the pathogenesis of allergic diseases. In the current study, we investigated the role of IL-4, IL-5 and mast cells in the development of cutaneous late phase reaction (LPR) in mice. Antigenic challenge of ears of ovalbumin (OVA)-immunized BALB/c mice caused a biphasic ear swelling peaking at 1 hr (immediate phase reaction; IPR) and 24 hr (LPR). Ear swelling in LPR was significantly suppressed by the treatment with anti-IL-4 monoclonal antibody (mAb) before antigen challenge. Local eosinophil accumulation during LPR, however, was not inhibited by anti-IL-4 mAb. Moreover, anti-IL-5 mAb had no effect on the swelling response though it significantly suppressed the local accumulation of eosinophils. Interestingly, mast cell-deficient mice (WBB6F1-W/Wv) developed LPR without exhibiting IPR, while the magnitude of ear swelling and local eosinophilia was significantly lower than in normal congenic mice (+/+ mice). The present findings show that IL-4 and IL-5 differently regulate the development of LPR, and that IgE-mediated mast cell activation is required for full response.
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PMID:The roles of IL-4, IL-5 and mast cells in the accumulation of eosinophils during allergic cutaneous late phase reaction in mice. 1147 91

Asthma is a triad of intermittent airway obstruction, bronchial smooth muscle cell hyperreactivity to bronchoconstrictors, and chronic bronchial inflammation. From an aetiological standpoint, asthma is a heterogeneous disease, but often appears as a form of immediate hypersensitivity. Many patients with asthma have other manifestations of atopy, such as rhinitis or eczema. Even among non-atopic patients with asthma, the pathophysiology of airway constriction is similar, raising the hypothesis that alternative mechanisms of mast cell degranulation may underlie the disease. The primary inflammatory lesion of asthma consists of accumulation of CD4(+) T helper type 2 (TH2) lymphocytes and eosinophils in the airway mucosa. TH2 cells orchestrate the asthmatic inflammation through the secretion of a series of cytokines, particularly interleukin 4 (IL-4), IL-13, IL-5, and IL-9. IL-4 is the major factor regulating IgE production by B cells, and is required for optimal TH2 differentiation. However, blocking IL-4 is not sufficient to inhibit the development of asthma in experimental models. In contrast, inhibition of IL-13, another TH2 cytokine whose signal transduction pathway overlaps with that of IL-4, completely blocks airway hyperreactivity in mouse asthma models. IL-5 is a key factor for eosinophilia and could therefore be responsible for some of the tissue damage seen in chronic asthma. IL-9 has pleiotropic activities on allergic mediators such as mast cells, eosinophils, B cells and epithelial cells, and might be a good target for therapeutic interventions. Finally, chemokines, which can be produced by many cell types from inflamed lungs, play a major role in recruiting the mediators of asthmatic inflammation. Genetic studies have demonstrated that multiple genes are involved in asthma. Several genome wide screens point to chromosome 5q31--33 as a major susceptibility locus for asthma and high IgE values. This region includes a cluster of cytokine genes, and genes encoding IL-3, IL-4, IL-5, IL-9, IL-13, granulocyte macrophage colony stimulating factor, and the beta chain of IL-12. Interestingly, for some of these cytokines, a linkage was also established between asthma and their receptor. Another susceptibility locus has been mapped on chromosome 12 in a region that contains other potential candidate cytokine genes, including the gene encoding interferon gamma, the prototypical TH1 cytokine with inhibitory activities for TH2 lymphocytes. Taken together, both experimental and genetic studies point to TH2 cytokines, such as IL-4, IL-13, IL-5, and IL-9, as important targets for therapeutic applications in patients with asthma.
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PMID:New insights into the role of cytokines in asthma. 1147 11

We established an Ascaris-induced biphasic skin allergic reaction in mice. In the early-phase reaction (EPR), mast cell degranulation was observed, and tranilast inhibited ear edema. In mast-cell-deficient mice (WBB6F(1)-W/W(V) mice), ear edema in the EPR disappeared, whereas that in the late-phase reaction (LPR) remained. Eosinophils increased, and CD4-positive T cells tended to increase in the LPR. Anti-CD4 antibody, anti-IL-4 antibody and anti-IL-5 antibody all inhibited ear edema and had a tendency to inhibit eosinophil infiltration in the LPR. These data suggest that the EPR is induced by histamine released from mast cells, whereas the LPR is induced by IL-4 and IL-5 produced from CD4-positive T cells.
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PMID:Characterization of Ascaris-induced biphasic skin allergic reaction model in mice: possible roles of mast cells in early-phase and CD4-positive T cells in late-phase reactions. 1149 Feb

Prolonged eosinophil survival is an essential step in the late and chronic phases of allergic inflammation and is regulated by the eosinophil survival cytokines. Our work has demonstrated that tumour necrosis factor (TNF)-alpha enhances survival (Trypan blue exclusion test) of human peripheral blood eosinophils from mildly allergic patients in a dose-dependent manner. The survival activity of TNF-alpha was inhibited by anti-TNF-RI, anti-TNF-RII antagonist antibodies and anti-granulocyte-monocyte colony-stimulating factor (GM-CSF) neutralizing antibodies but not by anti-interleukin (IL)-3 or anti-IL-5 antibodies. Furthermore, TNF-alpha-induced GM-CSF release from eosinophils. Anti-TNF-alpha antibodies also inhibited GM-CSF release from eosinophils induced by rat mast cell sonicate, which enhances eosinophil survival. To define the signal transduction pathway involved in GM-CSF production, eosinophils were incubated either with various mitogen-activated protein kinases (MAPK) inhibitors (MEK, JNK, P38), or Cyclosporin A (calcineurin inhibitor), or MG-132 (proteasome inhibitor). Only the proteasome inhibitor significantly decreased both TNF-alpha-enhanced eosinophil survival (from 38.1+/-4.1% to 13.3+/-1.4%) and GM-CSF release (from 6.2+/-0.7 pg/ml to 0.3+/-0.1 pg/ml). TNF-alpha also induced nuclear factor-kappaB (NF-kappaB) translocation to the nucleus, an essential step in GM-CSF mRNA production. All these findings provide evidence that NF-kappaB is involved in TNF-alpha-enhanced eosinophil survival through the regulation of GM-CSF production by eosinophils.
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PMID:Mechanism of tumour necrosis factor alpha mediated eosinophil survival. 1150 5

Since asthma has been recognized as a chronic inflammatory airway disease, inflammatory markers are useful tools to show the degree of allergic airway inflammation. Asthmatic airway is characterized with infiltration of activated Th2 lymphocyte, eosinophils and mast cells/basophils. Eosinophil derived proteins such as ECP, MBP and EDN are important markers indicating eosinophilic inflammation. Histamine and tryptase are the products of mast cell/basophil activation. These markers are detected in sputum, BALF, serum and urine, and increased in asthmatics. In addition to these markers, NO concentration in exhaled air, cytokines such as IL-4, IL-5, chemokines such as RANTES, eotaxin, LTE4, MMP are inflammatory markers to indicate the quality and quantity of asthmatic airway inflammation. Assessment of these markers, therefore, contributes to better control of asthmatic symptoms with appropriate therapy.
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PMID:[Airway inflammatory marker]. 1167 35

It is well established, that viral infections may trigger urticaria or allergic asthma; however, as viral infections induce T helper 1 polarized responses, which lead to the inhibition of T helper 2 cell development, the opposite would be plausible. We wanted to investigate how viral infections may mediate allergic symptoms in a mouse model; therefore, we infected BALB/C mice with influenza A virus intranasally. Histologic analyses of lung sections and bronchoalveolar lavages were performed. In addition, cells from the mediastinal lymph nodes were restimulated in vitro to analyze which types of cytokines were induced by the flu infection. Furthermore, flu-specific antibody titers were determined and local anaphylaxis was measured after rechallenge with flu antigen. We found that airways inflammation consisted predominately of macrophages and lymphocytes, whereas only a few eosinophils were observed. interferon-gamma but no interleukin-4 and little interleukin-5 could be detected in the culture supernatants from in vitro restimulated T cells from the draining lymph nodes. The antibody response was characterized by high levels of virus-specific IgG2a, IgG2b, and IgG1 and, surprisingly, low levels of virus-specific IgE antibodies. Interestingly, flu-infected mice developed active and passive cutaneous anaphylaxis after rechallenge with flu-antigen. As the passive cutaneous anaphylaxis reaction persisted over 48 h and was significantly lower after passive transfer of the serum, which was IgE depleted, local anaphylaxis seemed to be mediated predominately by specific IgE antibodies. Taken together, our results demonstrate that mice infected with flu virus develop virus-specific mast cell degranulation in the skin. Our results may also have implications for the pathogenesis of urticaria or other atopic disorders in humans.
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PMID:Infection with influenza a virus leads to flu antigen-induced cutaneous anaphylaxis in mice. 1191 11

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