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)

Cytokines are proinflammatory protein mediators produced by many cells, including mast cells, T lymphocytes, eosinophils, airway epithelial cells, and macrophages. There are numerous in vitro and in vivo animal and human studies showing that cytokines are released as a result of allergic reactions. Cytokines mediate allergic inflammation by activating eosinophils, promoting mast cell development, regulating immunoglobulin isotype switching to immunoglobulin E, modulating adhesion molecule regulation, and promoting both neutrophil and eosinophil chemotaxis. Furthermore, there are data that show the pro-inflammatory effects of cytokines may be blocked by cytokine antagonists. This report reviews the in vitro and in vivo animal and human studies of allergic models of cytokine production and regulation. It also discusses the specific roles of cytokines in the allergic inflammatory response and asthma.
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PMID:Allergic models and cytokines. 795 97

Members of the Immunoglobulin Superfamily (Ig) present in the surface of rodent mast cells include the high affinity IgE receptor (Fc epsilon RI), the low affinity receptors for the Fc portion of IgG, the Fc gamma RII family and Fc gamma RIII as well as the recently cloned gp49 family that includes three members gp49A, gp49B1 and gp49B2. Fc epsilon RI and Fc gamma RIII are members of the multi-chain immune recognition receptor (MIRR) family since they possess a multimeric structure in which the signal transducing chains (gamma chains) contain six acids that conform the Antigen Homology Receptor 1 Motif (ARH1M), also present in the T cell receptor (TCR) transducing chains. gp49B1, gp49B2 and the FC gamma R family are monomeric chains that also contain the partial of full AHR1M motif in their cytoplasmic domain indicating the capability for signal transduction through tyrosine phosphorylation and the possibility of cell activation with mediator (s) or cytokine (s) release. Distribution of the Fc gamma R receptors and gp49 family members varies in the different stages of mast cell differentiation and maturation.
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PMID:Surface makers for mast cell subtypes: low affinity IgG receptors and gp49 family. 803 57

Interleukin 4 (IL-4), a critical immunoregulatory cytokine, is produced by a subset of T lymphocytes and cells of the mast cell/basophil lineage. There are cell-specific differences in the regulatory elements that control IL-4 transcription in these two cell types. A 683-bp Bgl II fragment, located within the second intron of the murine IL-4 gene, was previously shown to exhibit mast cell-specific enhancer activity. To define critical cis-acting elements that regulate this enhancer, a series of deletions from the 5' and 3' ends of the Bgl II fragment were generated. Their effect on enhancer activity was assessed in IL-4-producing mast cell lines in transient transfection assays. Two functionally independent subregions, E1 and E2, were defined in this analysis. Both are required for full enhancer activity. Sequences identical to previously defined DNA-binding sites for SP1 and GATA are present within E1, and an ets binding site is located within E2. Although mutation of the SP1 sites had no effect on enhancer function, alteration of either the GATA or ets site reduced enhancer activity by 50-60%. Proteins that associate with the IL-4 intronic GATA and ets sites were detected in mast cell nuclear extracts by mobility-shift assays. Specific antibodies identified these factors as GATA-1 and GATA-2 and the ets family member PU.1. GATA-1, GATA-2, and PU.1 exhibit cell-specific expression, suggesting that these proteins play a critical role in the lineage-restricted activity of the IL-4 intronic enhancer in mast cells.
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PMID:PU.1 and GATA: components of a mast cell-specific interleukin 4 intronic enhancer. 805 53

Mouse mast cells differentially express at least four chymases (mouse mast cell protease (mMCP) 1, mMCP-2, mMCP-4, and mMCP-5), a tryptase (mMCP-6), and an exopeptidase (mouse mast cell carboxypeptidase A (mMC-CPA)). The previously uncharacterized 2.5-kilobase mMCP-2 gene was isolated and found to consist of 5 exons. The 5'-flanking region of this gene is 89, 93, and 42% similar to that of the mMCP-1, mMCP-4, and mMCP-5 genes, respectively. Inheritance patterns of restriction-enzyme fragment length polymorphisms of these six mast cell protease genes in recombinant inbred mouse strains and interspecific backcrosses were used to determine their chromosomal locations. The mMCP-6 and mMC-CPA genes are located on chromosomes 17 and 3, respectively, whereas the four mast cell chymase genes all reside on chromosome 14 linked to a gene complex that encodes four cytotoxic T lymphocyte granzymes. Pulsed-field gel electrophoresis of genomic DNA digests demonstrated that the mMCP-1, mMCP-2, and mMCP-5 genes are within 850 kilobases of each other. Although clustering of the serine protease genes on chromosome 14 may be important at a higher level of genomic organization, the ability to independently induce or suppress the steady-state levels of the four chymase transcripts by treatment of mast cells with cytokines suggests that gene clustering is not the most critical factor for coordinate expression of these proteases. Because of the unique features of their tertiary structures, the substrate specificities of the serine proteases encoded by genes at the chromosome 14 complex are predicted to be more limited than those of pancreatic chymotrypsin and pancreatic trypsin, whose genes reside on chromosomes 8 and 6, respectively. Based on present day genomic distribution and sequence similarities, we propose that a primordial gene that encoded a serine protease with restricted substrate specificity underwent extensive duplication and divergence to form a family of cytokine-regulated transcripts from genes on chromosome 14.
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PMID:A closely linked complex of mouse mast cell-specific chymase genes on chromosome 14. 809 10

Interleukin-10 (IL-10) is a novel cytokine that is produced by T cells, macrophages, B cells and keratinocytes. It has been shown to inhibit cytokine production and proliferation by T cells when macrophages are used as accessory or antigen presenting cells. Monokine production by macrophages is effectively downregulated by IL-10 and it can be used as a growth factor by CD4, CD8 and gamma/delta positive T cells as well as mast cells and B cells. It is because of these pleiotropic immunoregulatory effects that the detection of IL-10 in the supernatants of T cells, B cells, macrophages and other cells is important for many scientific questions. Here we describe a simple and sensitive bioassay specific for human IL-10 using the IL-10 dependent growth of the mouse mast cell line D36. Our data show that this assay is not crossreactive with hIL-1 beta, hIL-2, hIL-3, hIL-4, hIL-5, hIL-6, hIL-9, hIL-12, hGM-CSF and hTNF-alpha and that it can be completely blocked by an antibody against human IL-10. The hIL-10 induced growth of the D36 cell line is dependent on the presence of mIL-4. Human IL-10 can be measured in a concentration range from approximately 10 U/ml to 0.05 U/ml. This assay is only of limited use for the measurement of IL-10 in human blood samples since it is inhibited by the presence of human serum.
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PMID:A sensitive and specific bioassay for the detection of human interleukin-10. 828 94

Cytokine-activation pathways in mast cells are supposed to play a significant role in host defense mechanisms and allergic reactions. Interleukin-4 (IL-4) is a well-characterized regulator of growth and function of mast cells. The human mast cell line HMC-1 was established from a patient suffering from mast cell leukemia and was shown to expose IL-4 binding sites. In the present study, the effects of recombinant human (rh) IL-4 and other rh cytokines (IL-2, IL-3, IL-6, IL-8) on expression of cytokine mRNA in HMC-1 cells were examined by Northern blot analysis using oligonucleotide probes. Tumor necrosis factor alpha (TNF-alpha) and IL-1 beta transcripts were found to be expressed constitutively in HMC-1 cells, whereas transcripts for IL-3, IL-4, IL-5, IL-6, and granulocyte-macrophage colony-stimulating factor (GM-CSF) could not be detected. Of all cytokines tested, rhIL-4 was found to down-regulate IL-1 beta mRNA expression and formation of immunoreactive IL-1 beta protein in HMC-1 cells. The effect of IL-4 on IL-1 beta gene product expression was time- and dose-dependent (maximum effects obtained with 100 U/mL of rhIL-4). No effect of IL-4 on expression of TNF-alpha mRNA in HMC-1 cells was observed. These results raise the possibility that human mast cells are a source of both TNF-alpha and IL-1 beta. Furthermore, our study provides evidence that IL-4 regulates IL-1 beta gene product expression in HMC-1 cells. The HMC-1 cell line should be a useful tool for studying cytokine activation pathways in human mast cells.
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PMID:Tumor necrosis factor alpha and interleukin-1 beta mRNA expression in HMC-1 cells: differential regulation of gene product expression by recombinant interleukin-4. 833 Jun 51

Although the deleterious effect of Staphylococcus aureus on atopic eczema is well recognized, the mechanism of this effect may be more complex than pyogenic infection alone. We have shown that the majority of S. aureus cultures isolated from atopic eczema produced exotoxins with superantigenic properties, although this was no more frequent than in a control group, and was not restricted to one particular superantigen. However, the widespread nature of staphylococcal infections in atopic eczema indicates that sufficient superantigen may be released to cause T-lymphocyte activation, cytokine release, and mast cell degranulation. These mechanisms could, in part, explain the exacerbations of atopic eczema associated with S. aureus infection.
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PMID:Superantigenic exotoxin-secreting potential of staphylococci isolated from atopic eczematous skin. 833 46

The expression of the alpha 6 beta 4 and alpha 6 beta 1 integrins on epidermal Langerhans cells (LC) before and after mast cell degranulation was studied in cultured human neonatal foreskin by immunohistochemistry. Twenty-four hours after addition of mast cell secretagogues, morphine sulfate, or substance P, solitary mid-epidermal cells showed staining for the integrin subunits alpha 6, beta 4, and beta 1. This expression was not observed in cultured control explants, and immunostained cells were confirmed to be non-epithelial, dendritic cells by immuno-electron microscopy. The identity of these cells as LC was further established by coincident staining for alpha 6 and CD1a using double immunofluorescence labeling. Addition of tumor necrosis factor-alpha (TNF alpha), the predominant cytokine in mast cell granules, also induced LC to express alpha 6 integrins. Furthermore, preincubation of skin organ cultures with anti-TNF alpha antibodies or the mast cell inhibitor cromolyn sodium abrogated the ability to induce alpha 6 integrins on LC consequent to experimental mast cell degranulation by substance P. These data implicate a role for mast cell-derived TNF alpha in the regulation of the integrins alpha 6 beta 4 and alpha 6 beta 1 on LC. These findings may have important implications relevant to mechanisms for spatial localization of LC within the cutaneous compartments during immune responses.
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PMID:Mast cell degranulation upregulates alpha 6 integrins on epidermal Langerhans cells. 834 16

Intestine from rats sensitized to egg albumin (EA) antigen responds to EA challenge with an increase in short-circuit current (Isc), indicative of predominantly chloride secretion. Here, we have examined the role of interferon alpha/beta (IFN alpha/beta) in the control of this event. Muscle-stripped jejunal segments from sensitized rats, mounted in Ussing chambers, displayed a reduced response to EA-challenge in the presence of IFN alpha/beta (100-1000 U/ml), when the cytokine was incubated with the tissue for > or = 60 min; serosal and luminal responses were significantly reduced by ca.32-47% and ca.50-80%, respectively. Preabsorption with an anti-IFN alpha/beta antibody abolished this inhibition. IFN alpha/beta did not influence the secretory response of the tissues to histamine, serotonin, bethanechol, or forskolin, suggesting that IFN alpha/beta does not affect the epithelium directly. IFN alpha/beta had no effect on Isc changes induced by electrical transmural stimulation of mucosal nerves in the tissue, nor did neuronal blockade with tetrodotoxin influence the action of IFN alpha/beta. These data indicate that the effect of IFN alpha/beta is not neuronally mediated. The normal anti-secretory actions of diphenhydramine (H1-antagonist) and piroxicam (cylooxygenase inhibitor) upon antigen-activation of mast cells, were not apparent in the presence of IFN alpha/beta. This suggests that IFN alpha/beta inhibits intestinal hypersensitivity by acting directly on mast cells. This hypothesis was confirmed by inhibition of antigen-induced release of the specific mucosal mast cell marker, rat mast cell protease II, in tissues treated with IFN alpha/beta. These findings suggest that IFN alpha/beta can function as an intestinal anti-inflammatory agent by stabilizing mucosal mast cells.
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PMID:Inhibition of antigen-induced secretion in the rat jejunum by interferon alpha/beta. 834 70

Interleukin 10 (IL-10), which was first discovered by its ability to inhibit the synthesis of various cytokines, most notably gamma interferon, from Th1 helper cells, displays pleiotropic immunoregulatory properties. Human and murine IL-10 have a high amino acid sequence identity (ca. 73%) which includes the conservation of all four cysteine residues in human IL-10 and the first four out of five cysteine residues for murine IL-10. Chemical analysis was used to determine that both recombinant human and recombinant murine IL-10 contain two disulfide bonds. The disulfide pairs for each were determined by mass spectrometric and reversed-phase HPLC analysis of trypsin-derived polypeptide fragments. The disulfide bond assignments for both species were similar in that the first cysteine residue in the sequence paired with the third and the second paired with the fourth. The fifth cysteine in murine IL-10 was determined by chemical modification to be unpaired. Far-UV circular dichroism analysis indicated that the secondary structure of recombinant human and murine IL-10 are composed of ca. 60% alpha-helix. Reduction of the disulfide bonds structurally destabilized the protein and led to a structure containing only 53% alpha-helix. The reduced protein displayed no in vitro biological activity in a mast cell proliferation assay. These studies indicate that IL-10 is a highly alpha-helical protein containing two disulfide bonds, either one or both of which are critical for its structure and function. In addition, these properties suggest that this interesting cytokine may belong to the alpha helical cytokine class of hematopoietic ligands.
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PMID:Disulfide bond assignments and secondary structure analysis of human and murine interleukin 10. 836 28


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