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)

Histamine exhibits various biological effects in inflammatory and immunological reactions. To further define its potential role in allergic enteropathy and inflammatory bowel disease, both gut mucosal histamine levels and histamine release from endoscopic biopsy samples were measured. Tissue histamine content resulted from addition of the released amount of histamine and the remaining part of tissue histamine. The results demonstrate highly elevated mucosal histamine levels of the large intestine in allergic enteropathy. In inflammatory bowel disease histamine content and secretion were found to be significantly increased particularly in affected mucosa of Crohn's disease and ulcerative colitis than in unaffected tissue or in healthy controls. These findings give strong evidence that mast cell mediators like histamine play a role in the pathogenesis of these diseases. Mucosal histamine is thus concluded to contribute to the immuno-inflammatory reactions of the intestine found in these disease states and to reflect the degree of colonic inflammation in Crohn's disease and ulcerative colitis.
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PMID:Mucosal histamine content and histamine secretion in Crohn's disease, ulcerative colitis and allergic enteropathy. 754 99

Nitric oxide (NO.) plays a central role in the physiology of the gastrointestinal tract and its response to critical illness. Potential sources of NO. in the gut include: intrinsic intestinal tissue (mast cells, epithelium, smooth muscle, neural plexus), resident and/or infiltrating leukocytes (neutrophils, monocytes), reduction of luminal gastric nitrate, and denitrification by commensal anaerobes. The brain and endothelial isoforms of nitric oxide synthase are expressed under resting conditions, whereas inflammatory stimuli are required for the induction of the inducible type. Under resting conditions, mucosal perfusion is regulated by NO. derived from the vascular endothelium of the mesenteric bed. During inflammation, excessive NO. production from the inducible synthase may contribute to mucosal hyperemia. Coordination of peristalsis and sphincteric action is mediated by the release of NO., which acts as the principal neurotransmitter of the nonadrenergic, noncholinergic enteric nervous system. Alterations in bowel motility, such as ileus, result from excessive concentrations of NO. generated during endotoxicosis and inflammatory bowel disease. The role of NO. in the regulation of salt and water secretion is poorly understood. Endotoxin-induced inhibition of gastric acid secretion appears to be mediated by the action of NO. on parietal cells. NO. may protect the gastrointestinal mucosa from a variety of stimuli (caustic ingestion, ischemia, ischemia/reperfusion injury, early endotoxic shock) by maintaining mucosal perfusion, inhibiting neutrophil adhesion to mesenteric endothelium, blocking platelet adhesion, and preventing mast cell activation. Excessive NO., however, may directly injure the mucosa. Barrier function of the intestinal mucosa is protected by NO. in the early stages of injury, when neutrophil adhesion, ischemia, and mast cell activation are relevant. Inhibition of NO. synthesis ameliorates barrier dysfunction during more advanced stages of inflammation, when activation of inducible NOS yields toxic concentrations of NO.. At high concentrations, NO. disrupts the actin cytoskeleton, inhibits ATP formation, dilates cellular tight junctions, and produces a hyperpermeable state. Selective inhibition of the inducible isoform of NOS and maintenance of the constitutive types may be therapeutic.
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PMID:Nitric oxide in the gut. 758 76

Mucosal and submucosal mast cell hyperplasia is a feature of the chronic inflammatory bowel diseases--ulcerative colitis and Crohn's disease. The mast cells are often seen to be degranulated in areas of active disease, suggesting that the inflammatory mediators released from these cells contribute to the pathophysiology of these disorders. We examined the hypothesis that epithelial cell-derived proteins, intestinal epithelial cell-associated components (ECAC), interact with the mast cells of patients with chronic inflammatory bowel disease to trigger the local release of mast cell mediators. Aliquots of human intestinal mucosal mast cell suspensions obtained from surgically resected specimens of colon or small intestine (ulcerative colitis, 12; Crohn's disease, 3; histologically normal controls, 8) were incubated with 1-100 micrograms/ml of colon or small bowel-derived murine ECAC or control kidney protein, or 1 microgram/ml goat anti-human IgE positive control for 30 min at 37 degrees C. Supernatants were analyzed in duplicate for histamine content by fluorometric assay. The median percent total histamine released by chronic inflammatory bowel disease mast cell suspensions to colonic epithelium-derived protein (ECAC-C) was 4% histamine (range 0-20%), such that the distribution of histamine release values in inflammatory bowel disease specimens was significantly different from the distribution of values in mast cells taken from normal mucosa (median 0%, P < 0.05). The median histamine release by all chronic inflammatory bowel disease specimens was also increased in response to the ECAC preparations derived from small bowel epithelium in that a third of the inflammatory bowel disease specimens showed greater than 10% histamine release to ECAC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intestinal mast cell responses in idiopathic inflammatory bowel disease. Histamine release from human intestinal mast cells in response to gut epithelial proteins. 768 62

Nitric oxide (NO.) plays a central role in the Physioliology of the gastrointestinal tract and its response to critical illness. Potential sources of NO. in the gut include: intrinsic intestinal tissue (mast cells, epithelium, smooth muscle, neural plexus), resident and/or infiltrating leukocytes (neutrophils, monocytes), reduction of luminal gastric nitrate, and denitrification by commensal anaerobes. The brain and endothelial isoforms of nitric oxide synthase are expressed under resting conditions, whereas inflammatory stimuli are required for the induction of the inducible type. Under resting conditions, mucosal perfusion is regulated by NO. derived from the vascular endothelium of the mesenteric bed. During inflammation, excessive NO. production from the inducible synthase may contribute to mucosal hyperemia. Coordination of peristalsis and sphincteric action is mediated by the release of NO., which acts as the principal neurotransmitter of the nonadrenergic, noncholinergic enteric nervous system. Alterations in bowel motility, such as ileus, result from excessive concentrations of NO. generated during endotoxicosis and inflammatory bowel disease. The role of NO. in the regulation of salt and water secretion is poorly understood. Endotoxin-induced inhibition of gastric acid secretion appears to be mediated by the action of NO. on parietal cells. NO. may protect the gastrointestinal mucosa from a variety of stimuli (caustic ingestion, ischemia, ischemia/reperfusion injury, early endotoxic shock) by maintaining mucosal perfusion, inhibiting neutrophil adhesion to mesenteric endothelium, blocking platelet adhesion, and preventing mast cell activation. Excessive NO., however, may directly injure the mucosa. Barrier function of the intestinal mucosa is protected by NO. in the early stages of injury, when neutrophil adhesion, ischemia, and mast cell activation are relevant. Inhibition of NO. synthesis ameliorates barrier dysfunction during more advanced stages of inflammation, when activation of inducible NOS yields toxic concentrations of NO.. At high concentrations, NO. disrupts the actin cytoskeleton, inhibits ATP formation, dilates cellular tight junctions, and produces a hyperpermeable state. Selective inhibition of the inducible isoform of NOS and maintenance of the constitutive types may be therapeutic.
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PMID:Nitric oxide in the gut. 770 93

Because of the integrated nature of cellular elements in the gut wall, an understanding of the local mucosal immune system and its adaptive capacity should provide more insight into diseases of the colon, such as inflammatory bowel disease and colorectal cancer. To develop a method to quantify colonic mucosal immune function in situ, ion transport mediated by a type I hypersensitivity reaction was measured in the colon of mice infected with Trichinella spiralis. Segments of sensitized distal colon mounted in Ussing chambers and challenged with T. spiralis-derived antigen resulted in a rise in short-circuit current (delta Isc) that was antigen-specific and inhibited by furosemide. Colonic segments from infected, mast cell-deficient W/Wv mice were unresponsive to challenge with T. spiralis antigen. Inhibition of anaphylactic mediators with various pharmacological agents implicated prostaglandins and leukotrienes as the principal mediators of the antigen-induced delta Isc, with 5-HT also playing a role. Neural blockade with tetrodotoxin or blockade of histamine H1 receptors with diphenhydramine failed to inhibit the colonic immune response. Distal colon from immune mice fed an aspirin-containing diet (800 mg/kg powdered diet) ad libitum for 6 weeks had a decreased response to antigen. However, dietary aspirin had no effect on antigen-induced delta Isc in the jejunum or on Cl- secretagogue-stimulated delta Isc in the distal colon. These results suggest that products of arachidonic acid metabolism are important mediators of mast cell-dependent, antigen-stimulated Cl- secretion in the distal colon of mice immunized by infection with T. spiralis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mast cell-mediated colonic immune function and its inhibition by dietary aspirin in mice infected with Trichinella spiralis. 792 13

The regulation of mediator release in human intestinal mast cells is largely unknown. Apart from IgE receptor crosslinking no secretagogues have been described so far. This study examined the effect of two cytokines (c-kit ligand and interleukin 3) and other agonists on human intestinal mast cell function. Cells were isolated from surgery specimens of 47 patients undergoing intestinal resection because of tumours or inflammatory bowel disease. Cell suspensions contained 3.6% mast cells (mean of 50 experiments). After preincubation without or with c-kit ligand or interleukin 3, cells were stimulated by IgE receptor crosslinking, C5a or formyl-methionyl-leucyl-phenylalanine (fMLP). Histamine and sulphidoleukotriene release was measured in supernatants. The sequential stimulation of the cells with c-kit ligand and IgE receptor crosslinking induced the release of high amounts of histamine and leukotrienes, whereas each agonist by itself induced only marginal mediator release. Interleukin 3 induced no release by itself, but enhanced the IgE receptor dependent release, possibly by an indirect mechanism. No significant mediator release was seen in response to C5a and fMLP, even if the cells were pretreated with c-kit ligand. The mediator release, particularly that of leukotrienes, was higher in cells isolated from actively inflamed tissue from patients with inflammatory bowel disease compared with controls. In conclusion, it was found that, apart from IgE receptor crosslinking, c-kit ligand and interleukin 3 regulate mediator release in human intestinal mast cells. The enhancement of mediator release by cytokines may be of particular relevance in the pathogenesis of inflammatory bowel diseases and food intolerance reactions.
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PMID:Effect of c-kit ligand, stem cell factor, on mediator release by human intestinal mast cells isolated from patients with inflammatory bowel disease and controls. 856 35

There is growing evidence that endogenous nitric oxide (NO) regulates mucosal barrier integrity under physiological conditions and counters the increase in mucosal permeability associated with acute pathophysiological states. The potential mechanisms of action for the protective effects of NO are discussed. These include maintenance of blood flow, inhibition of platelet and leukocyte adhesion and/or aggregation within the vasculature, modulation of mast cell reactivity, and scavenging of reactive oxygen metabolites such as superoxide. On the basis of the data presented, we conclude that both constitutive nitric oxide synthase (cNOS)-derived endogenous NO and exogenous NO (from NO donors) appear to reduce the sequelae of acute inflammation. The second section of this review summarizes the data germane to prolonged (chronic) inflammatory conditions associated with the overproduction of NO from the inducible form of NOS (iNOS). Some emphasis is placed on the role of NO in sepsis and inflammatory bowel disease (IBD), and data to suggest that NO, or more specifically a NO-derived mediator, is involved in these disorders are summarized. These studies are compared with recent publications suggesting that inhibition of NO synthesis with nonspecific inhibitors of NOS or selective iNOS inhibitors may not protect in models of sepsis or IBD. Overall, the review highlights the potential importance of the type of NOS enzyme involved in the particular inflammatory process being studied.
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PMID:A critical role for nitric oxide in intestinal barrier function and dysfunction. 877 63

Previous studies on the frequency of intestinal mast cells and eosinophils in patients with inflammatory bowel disease yielded conflicting results. In the present morphometric study, we quantified mast cells and eosinophils in the lamina propria by histological and immunohistochemical methods in 64 patients suffering from Crohn's disease (33 cases) or ulcerative colitis (31 cases), and in 29 controls. Histological data from 206 biopsies were related to the presence of mucosal inflammation and clinical parameters. The number of eosinophils was increased in patients with inflammatory bowel conditions (mean +/- SE: 331 +/- 44/mm2) as compared to controls (258 +/- 27/mm2), and was dependent on disease activity and drug treatment. Mean mast cell numbers did not differ between patients and controls. However, a reduced mast cell number was found in toluidine blue-stained sections of actively inflamed tissue areas (143 +/- 16/mm2, versus 206 +/- 18/mm2 in non-inflamed tissue). Immunohistochemical studies using antibodies against the granule proteins tryptase and chymase suggest that this decrease in mast cell numbers is due to mast cell degranulation. The present data show that the number of intestinal mast cells and eosinophils is altered in patients with inflammatory bowel diseases, suggesting that both cell types are involved in the pathogenesis of chronic intestinal inflammation.
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PMID:Quantitative assessment of intestinal eosinophils and mast cells in inflammatory bowel disease. 883 15

New sources of human and mouse mast cells, which were isolated from individual organs (i.e., lung, colon, synovium, skin, uterus, heart), developed from progenitors in vitro in the presence of stem cell factor and/or interleukin (IL)-3, or enriched from fetal or adult blood, spleen or bone marrow by cell sorting, have made possible new studies of the cell biology of mast cells. Advances resulting from these new mast cell sources as well as from new methods for labeling specific products in subcellular sites and structures in resting and functional mast cells are the subject of this review. Specific advances discussed are as follows: identification of an Fc epsilonRI+ c-kit- mouse basophil population from bone marrow and spleen that is associated with IL-4 production and an Fc epsilonRI- c-kit- granulated mouse mast cell progenitor in fetal blood; identification of hyperplasia and functional activation of human skin mast cells in vivo when exposed to recombinant stem cell factor and spontaneous degranulation in X-linked immunodeficient mouse mast cells; use of an enzyme-affinity-gold method to detect histamine in mature and immature human mast cell granules, in secretion and recovery of histamine during anaphylactic degranulation of human lung mast cells ex vivo, and in secretion of histamine in vivo by piecemeal degranulation of IL-4 transgenic mouse mast cells in inflammatory eye disease and of human gut mast cells in inflammatory bowel disease; use of immunogold methods to localize cyclooxygenase and tumor necrosis factor-alpha to subcellular structures in human and rat mast cells and to localize the Charcot-Leyden crystal protein in human basophils to aid in the identification of mast cells arising in mixed cellular populations; use of a low-density lipoprotein (LDL)-gold affinity method to demonstrate a rat mast cell granule-mediated uptake of LDL by macrophages in peritoneal fluid.
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PMID:New aspects of mast cell biology. 930 24

Mast cells can serve as a possible important source of cytokine production in inflamed tissue which can be regulated by stimuli different from those activating other immune system cells. To study the expression of specific genes in mast cells derived from small human colonic mucosal endoscopic biopsies, we first modified a previously reported procedure to achieve a significantly enriched mast cell fraction. Then, by using single-cell RT-PCR analysis the expression of the IgE Fc receptor (Fc epsilonRI) and c-kit mRNA was determined. It was observed that the Fc epsilonRI-positive cells also expressed c-kit. This observation provided further evidence that Fc epsilonRI-positive cells are indeed mast cells. Analysis of biopsies from 12 patients (four control and eight patients with inflammatory bowel disease (IBD)) was carried out, revealing that all of the Fc epsilonRI-positive cells expressed IL-3, while the expression of IL-4 was detected only in some of these positive cells. TNF alpha was not detected in these cells. Therefore, it would seem that most intestinal mast cells produce IL-3. Since it has been reported that IL-3 synthesis was down-regulated in steroid-treated cells, the expression pattern of IL-3 in intestinal mast cells derived from steroid-treated IBD patients was then determined. IL-3 mRNA was detected in only two out of 24 Fc epsilonRI-positive cells derived from these steroid-treated patients. These results lend strong support to the idea that the down-regulation of IL-3 in mast cells derived from steroid-treated IBD patients occurs in vivo and could be an important mechanism for immunomodulation in IBD.
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PMID:Analysis of cytokine profile in human colonic mucosal Fc epsilonRI-positive cells by single cell PCR: inhibition of IL-3 expression in steroid-treated IBD patients. 930 51

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