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)

In vitro studies suggest that TNF-alpha and IFN-gamma regulate thymocyte proliferation, but little evidence exists for the constitutive production of these cytokines in normal human thymus. In paired experiments, we examined frozen sections of postnatal human thymus from four control children and four age-matched children with Down syndrome (DS) (trisomy 21) for TNF-alpha and IFN-gamma mRNA expression using in situ hybridization. We studied thymuses from children with DS because this aneuploid condition is associated with a greatly increased incidence of infection and has abnormal thymic anatomy and patterns of thymocyte maturation. We found cells expressing constitutive levels of TNF-alpha mRNA in the trabeculae, corticomedullary junctions, and medulla of both control and DS thymuses and the number of these cells was an average of 3.9-fold higher in DS thymuses than in age-matched control thymuses. DS thymuses also contained an average of 3 fold higher numbers of cells with mast cell morphology, identified by toluidine blue histologic staining and electron microscopy. In both DS and control thymuses the mast cells colocalized with TNF-alpha mRNA-expressing cells. In addition, TNF-alpha protein- expressing cells, identified by immunohistochemistry, displayed a granular pattern of staining that is characteristic of mast cells. These results suggest that mast cells may be one source of TNF-alpha in human postnatal thymus. Discrete cells expressing IFN-gamma mRNA were distinctly localized to the cortical region of both DS and control thymuses and were 2.4-fold more abundant in DS thymuses than in the controls. Our results demonstrate, for the first time, the constitutive production and location of TNF-alpha and IFN-gamma in postnatal human thymus. The overexpression of both of these cytokines in DS thymuses suggests a dysregulation in cytokine production in DS and may provide an explanation for the abnormal thymic anatomy and thymocyte maturation associated with this syndrome.
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PMID:Tumor necrosis factor-alpha and IFN-gamma expression in human thymus. Localization and overexpression in Down syndrome (trisomy 21). 138 94

Cyclosporin A (CsA) is a potent inhibitor of cytokine (IL-2-IL-6, IFN gamma) production by CD4+ T lymphocytes stimulated via the T cell antigen receptor pathway. This action results in indirect inhibitory effects on the growth and differentiation of B lymphocytes (IL-4 and IL-6). Using experimental models, it has also been shown that the functional activities of mononuclear phagocytes (IFN-gamma) and other antigen-presenting cells, production of mast cells (IL-3) and eosinophils (IL-5) and the activity of natural killer (NK) cells may be inhibited indirectly by CsA. In addition, however, CsA blocks B cell responses to Ca(2+)-dependent signals (e.g., anti-IgM) downstream of phosphatidyl inositol diphosphate hydrolysis; Ca(2+)-independent responses (e.g., to LPS or IL-4) are largely unaffected. In general terms, the functions of macrophages are unchanged or reduced in the presence of CsA. These include phagocytic activity in vitro and in vivo, chemotactic migration, superoxide and H2O2 production, protein (including monokine) secretion and MHC gene product expression. Antigen presentation (e.g., by epidermal Langerhans cells) may be affected, especially at high drug concentrations. There is recent evidence that CsA inhibits mediator (histamine and prostaglandin) release from human mast cells and that mucosal mast cell numbers may be diminished in CsA-treated animals exhibiting graft-versus-host disease or helminth infections.
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PMID:The effects of cyclosporin A on non-T cell components of the immune system. 150 9

Mast cell-committed progenitors are detected in the unique microenvironment of the mesenteric lymph node (MLN) of Nippostrongylus brasiliensis-infected mice but not in naive bone marrow. We have determined that MLN cells, after infection, produce high levels of IL-3, IL-4, and IgE, presumably in the form of immune complexes with antigens produced by the infecting helminth. After N. brasiliensis infection, peak production of these factors occurs several days before the peak appearance of mast cell-committed progenitors in the MLN. To determine if these factors play a role in mast cell commitment, we recreated these conditions, in vitro. Naive bone marrow cells were cultured with combinations of IL-3, IL-4, and IgE immune complexes, or on IgE-coated plates, and then assayed for acquisition of the ability to form mast cell colonies when supplemented with fibroblast-conditioned medium alone. IL-3 and IgE immune complexes, and, unexpectedly, IgE immune complexes alone were found to be capable of producing mast cell-committed progenitors, i.e., cells responsive to fibroblast-conditioned medium alone, from bone marrow, whereas IL-4 did not enhance production of mast cell-committed progenitors from bone marrow. Production of IFN-gamma peaked at the same time point as committed progenitor activity and may be responsible for down regulating the response.
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PMID:The mast cell-committed progenitor. In vitro generation of committed progenitors from bone marrow. 189 99

IgE binds to two types of Fc receptors, called Fc epsilon R1 (or high-affinity Fc epsilon R) and Fc epsilon R2 (or low-affinity Fc epsilon R). The Fc epsilon R1 is composed of four polypeptide chains, one alpha, one beta, and two gamma chains. The alpha chain contains the IgE binding site and is a member of the immunoglobulin supergene family. The Fc epsilon R2, also called CD23, consists of one polypeptide chain which shows homology to animal lectin receptors. Fc epsilon R1 are expressed on mast cells and basophils. Crosslinking of the Fc epsilon R1 induces immediate release of mediators of inflammation such as histamine and leukotrienes and delayed secretion of interleukins 4, 5, and 6. Fc epsilon R2 are expressed on resting mu delta + B cells, monocytes/macrophages (M phi), eosinophils, and platelets but rarely on T cells. Interleukin-4 upregulates Fc epsilon R2 expression on B cells and M phi. The functions of Fc epsilon R2 on the different cell types are not fully established and are controversial. Fc epsilon R2 on M phi, eosinophils, and platelets mediate cytotoxicity to schistosomules, enhance phagocytosis, and induce the release of granule enzymes. However, M phi from patients with atopic dermatitis expressing significantly more Fc epsilon R2 than M phi from normals do not release more leukotriene C4, prostaglandin E2, or beta-glucuronidase after incubation with aggregated IgE than normal monocytes. Furthermore, aggregated IgG1 is much more efficient than IgE in inducing mediator release from M phi and IgG1 antibodies are not known to induce immediate-type hypersensitivity reactions. Therefore, definitive proof that Fc epsilon R2 are involved in the pathogenesis of allergic disorders is still lacking. IL-4 appears to play a central role in immediate-type hypersensitivity. It induces human B cells to secrete IgE and IgG4, Ig isotypes typical for antibodies to helminthic parasites and allergens. IL-4 stimulates mast cell growth and upregulates Fc epsilon R2 expression. Interferon-gamma and IL-2 inhibit the IL-4-induced IgG4 and IgE secretion. Whether the abnormally high IgE antibody production in atopic patients is the result of overproduction of IL-4 or deficient IFN-gamma/IL-2 production is presently unknown.
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PMID:Fc receptors for IgE and interleukin-4 induced IgE and IgG4 secretion. 219 Oct 55

In response to IgE and specific multivalent antigen, mast cell lines (both growth factor-dependent and -independent) induce the transcription and/or secretion of a number of cytokines having a wide spectrum of activities. We have identified IL-1, IL-3, IL-5, IL-6, IFN-gamma, GM-CSF, JE, MIP1 alpha, MIP1 beta, and TCA3 RNA in at least two of four mast cell clones. The production of these products (except JE) is activation-associated and can be induced by IgE plus antigen. In selected instances cytokine expression can also be induced by activation with Con A or phorbol ester plus ionophore, albeit to levels less than those observed with IgE plus antigen. In addition, long-term mast cell clones and primary cultures of bone marrow-derived mast cells specifically release IL-1, IL-4, and/or IL-6 bioactivity after activation. These findings suggest that in addition to their inflammatory effector function mast cells may serve as a source of growth and regulatory factors. The relationship of mast cells to cells of the T lymphocyte lineage is discussed.
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PMID:Interleukin 3-dependent and -independent mast cells stimulated with IgE and antigen express multiple cytokines. 247 61

Mast cells are critical effectors in many IgE-dependent responses, and the numbers and phenotype of certain mast cell populations can be influenced, through IL-3 and IL-4, by the same T cells that regulate IgE production. However, IgE can interact with cells other than mast cells, and different mast cell populations express significant variation in multiple important aspects of their phenotype, including mediator content and responses to cytokines and stimuli of activation. As a result it may be difficult to define the unique contributions of mast cells to IgE-dependent reactions. One approach for analysing the roles of various mast cell populations in individual biological responses is to attempt to elicit these reactions in mice in which the presence or absence of specific mast cell populations can be regulated experimentally. We have used genetically mast cell-deficient and mast cell-reconstituted mice to demonstrate that mast cells provide essential effector function in certain IgE-dependent responses involving the skin, stomach or lungs but are not necessary for the pulmonary alterations and death associated with active anaphylaxis. Similar approaches can be used to investigate the biological significance of the production, by mast cells stimulated with IgE and specific antigen, of cytokines similar or identical to IL-1, IL-3, IL-4, IL-5, IL-6, TNF-alpha/cachectin, IFN-gamma, GM-CSF, JE, MIP-1 alpha, MIP-1 beta and TCA3.
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PMID:Mast cells: immunologically specific effectors and potential sources of multiple cytokines during IgE-dependent responses. 251 50

A diagrammatic representation of the interactions between mediators of hypersensitivity and leukocytes in early, late-phase, and ongoing asthma is shown in Figure 1. Early phase or immediate reactions are largely the result of bronchoconstriction consequent to the release of mediators such as histamine, PGD2, LTC4/D4, and PAF. The principal mediator cell (MC) is the mast cell (although other IgE receptor-bearing cells such as the macrophage, eosinophil, and platelet might also be involved in this immediate response). The stimulus for mediator cell activation may be either immunologic (IgE-dependent) or nonimmunologic (i.e., changes in osmolarity as a result of the respiratory water loss associated with exercise-induced asthma). Late-phase reactions appear to be a consequence of infiltration with neutrophils (N), eosinophils (E), and macrophages (M phi). These cells are recruited and activated either by mast cell-associated chemotactic factors [such as LTB4, PAF, the eosinophil chemotactic factor of anaphylaxis (ECF-A), or high-molecular weight neutrophil chemotactic activity (NCA (HMW))] and/or "lymphokines" derived from T-helper cells (TH) which have been stimulated by antigen processed by the antigen-processing cells (APC). These mononuclear cell interactions are under the control of regulatory T cells [T suppressor (TS) cells] and it is speculated that the availability of these subsets may determine the magnitude of the late-phase response. Lymphokines and monokines which selectively activate neutrophils, eosinophils, and monocytes include LIF, EAF, and IFN-gamma, respectively. Macrophage-derived tumor necrosis factor (TNF) also amplifies the inflammatory response by its capacity to enhance eosinophil cytotoxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inflammatory cells in bronchial asthma. 270 38

We have identified a late, committed stage in the differentiation of the mast cell progenitor just before granulation. Mast cell committed progenitors (MCCP) are nongranulated cells with a density of 1.060 to 1.070 g/ml which can be harvested from the mesenteric lymph node of mice infected with Nippostrongylus brasiliensis. Mast cell-committed progenitors are able to proliferate and differentiate in the absence of IL-3 or IL-4 when cultured on a monolayer of embryonic skin or 3T3 fibroblasts and can form colonies in methylcellulose supplemented with fibroblast conditioned medium. Fibroblast conditioned medium appears to contain a soluble MCCP proliferation factor that maintains biologic activity when heated to 56 degrees C for 45 min but is destroyed by incubation with either trypsin or chymotrypsin. It can be selectively precipitated with 60 to 70% saturated ammonium sulfate. The factor is not absorbed by immobilized antibodies to nerve growth factor. The MCCP proliferation activity of the factor could not be mimicked by IL-1, IL-2, IL-4, granulocyte-macrophage-CSF, granulocyte-CSF, macrophage-CSF, IFN-alpha/beta, IFN-gamma, nerve growth factor, epidermal growth factor, serum fibronectin, heparin, or a number of glycosaminoglycans. At high salt concentrations, the factor passes through a 50-kDa membrane and can be concentrated above a 5-kDa membrane. MCCP acquire a connective tissue phenotype when cultured on a fibroblast monolayer and a mucosal phenotype when cloned in the presence of conditioned medium from PWM-stimulated spleen cells. When cultured in the absence of IL-3 on a monolayer of embryonic skin or 3T3 fibroblasts, mast cell-committed progenitors produce mast cells which stain with berberine sulfate suggesting a connective tissue phenotype; however, the mast cells that develop when mast cell-committed progenitors are cultured in the presence of IL-3 or conditioned media from PWM-stimulated spleen cells do not stain with berberine sulfate. MCCP intercalate into monolayers of embryonic skin or 3T3 fibroblasts, but T cells are not able to associate with the monolayer and can be completely washed away. Attempts to enrich mast cell-committed progenitors by intercalation and elution from embryonic skin monolayers proved unsuccessful, but some enrichment of mast cell-committed progenitors could be achieved by discontinuous Percoll gradients. Thus, we have identified a way to obtain late-stage, mast cell-committed progenitors in an environment that is virtually uncontaminated with other hematopoietic progenitors.
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PMID:The mast cell-committed progenitor. I. Description of a cell capable of IL-3-independent proliferation and differentiation without contact with fibroblasts. 278 62

A series of permanent IL-3-dependent cell lines have been established from normal BALB/c or C3H bone marrow using alpha-thioglycerol-supplemented culture medium and PWM-stimulated spleen cell-conditioned medium as a source of IL-3. The cell lines and derivatives cloned in agar resembled "mucosal type" mast cells with respect to phenotypic and functional properties. In this report we demonstrate that in vitro growth of these mast cell lines was not only dependent on IL-3 and synergistically enhanced by IL-4, but in addition regulated by alpha-thioglycerol which could be replaced by 2-ME or cysteamine. We show that these thiol-sensitive mast cell lines respond to a mast cell growth enhancing activity (MEA) present in spleen cell-conditioned medium and acting in concert with IL-3. Partially purified MEA was not able to stimulate the growth of IL-3-dependent 32Dcl.23 cells, IL-2-dependent CTLL-2 cells or the mouse T cell line F4/4K.6 (L3T4+) adapted to grow in purified IL-4. Moreover, 11B11 hybridoma-derived anti-IL-4 mAb specifically neutralizing mouse Il-4 were unable to abolish the bioactivity of MEA. PWM, CSF-1, GM-CSF, IL-1, IL-2, IL-5, IL-6, IL-7, IFN-gamma, TGF-alpha, TNF-alpha, NGF, or EPO did not substitute for MEA in our standard proliferation assay.
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PMID:Thiol-sensitive mast cell lines derived from mouse bone marrow respond to a mast cell growth-enhancing activity different from both IL-3 and IL-4. 278 56

The murine IL-3-dependent mast cell line, PT18-A17, and the rat basophilic leukemia cell line, RBL-2H3, were found to mediate natural cytotoxic (NC) activity via the release of a soluble factor which specifically lysed NC-sensitive WEHI-164 but not NK-sensitive YAC-1 tumor cells. The release of this NC cell-specific cytotoxic factor was enhanced by triggering of both types of cells via IgE receptor bridging. This factor had activity on TNF-sensitive but not TNF-resistant cell lines and could be neutralized by two independently produced polyclonal anti-mouse TNF antisera. It was not neutralized by antibodies against mouse IFN-alpha/beta or IFN-gamma. Moreover, it was not neutralized by a monoclonal or a polyclonal anti-human TNF, demonstrating that the rodent TNF differed antigenically from human TNF. These results indicate that the cytotoxic factor released from a murine IL-3-dependent mast cell line and from a rat basophilic leukemia cell line is immunologically and functionally related to murine TNF.
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PMID:Natural cytotoxic cell-specific cytotoxic factor produced by IL-3-dependent basophilic/mast cells. Relationship to TNF. 326 77


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