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)

Magnolol, isolated from Magnolia officinalis, inhibited mouse hind-paw edema induced by carrageenan, compound 48/80, polymyxin B and reversed passive Arthus reaction. Acetic acid-induced writhing response was depressed by magnolol, indomethacin and ibuprofen. The lethality of endotoxin challenge was reduced by pretreatment with magnolol, indomethacin and BW755C, a dual cyclo-oxygenase/lipoxygenase inhibitor. The recovered myeloperoxidase activity in edematous paw was significantly decreased in mice pretreated with magnolol and BW755C. Suppression of edema was demonstrated not only in normal mice but also in adrenalectomized animals. Magnolol was less potent on reducing PGD2 formation in rat mast cell than that of indomethacin. Unlike dexamethasone, magnolol did not increase liver glycogen level. The results suggest that the anti-inflammatory effect of magnolol was neither mediated by glucocorticoid activity nor through releasing steroid hormones from adrenal gland. The action of magnolol is proposed to be dependent on reducing the level of eicosanoid mediators.
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PMID:Anti-inflammatory and analgesic effects of magnolol. 133 74

The effects of ketotifen, a 'mast cell stabiliser,' on two models of experimental colitis were examined. The inflammatory response elicited by either trinitrobenzene sulphonic acid or acetic acid resulted in increased colonic synthesis of platelet activating factor, prostaglandin E2, thromboxane B2, leukotrienes B4 and C4, and myeloperoxidase activity. Intragastric administration of ketotifen 100 micrograms/100 grams twice daily significantly decreased mucosal damage when given prophylactically 48 hours before the induction of colitis and then throughout the experiment. This effect was consistent in both models and was accompanied by a significant reduction in mucosal generation of platelet activating factor, prostaglandin E2, thromboxane B2, and leukotrienes C4 and B4. Myeloperoxidase activity was reduced as well, reaching significance only in the acetic acid model. This study shows that both trinitrobenzene sulphonic acid and acetic acid colitis can be pharmacologically manipulated by ketotifen. The mechanism of action of ketotifen has not yet been determined. Ketotifen's potential in the treatment of active inflammatory bowel disease or in the prevention of exacertations, or both, remains to be elucidated.
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PMID:Ketotifen effectively prevents mucosal damage in experimental colitis. 145 75

Infection of rats with the parasite Nippostrongylus brasiliensis results in severe intestinal pathology and dysfunction. Much of the damage that occurs within the intestinal tract may be the direct result of the production of potent inflammatory mediators. PAF is one such lipid mediator that may lead to the altered motility and secretory changes that occur during N. brasiliensis infection. Male, Sprague-Dawley rats were subcutaneously infected with 3000 third stage larvae, while control groups were injected with phosphate buffered saline. At various times post infection (4-42 days) groups of four or more infected and control rats were killed and samples of ileum and jejunum were removed for determination of PAF and leukotriene synthesis (LTB4 and LTC4), myeloperoxidase (MPO) activity and tissue eosinophil and mast cell numbers. Separate groups of rats were killed at similar times for the determination of intestinal worm burden and serum rat mast cell protease II (RMCP-II) levels. Significant elevation in PAF synthesis was not seen until day 15, a time when the intestinal worm burden was no longer evident. Furthermore, this elevation was restricted to the jejunum. The elevation in PAF synthesis correlated with a significant elevation in histologically detectable eosinophils and mast cells in the jejunum. Mast cell activity, as detected through serum concentrations of RMCP-II, was significantly elevated at day 8 post-infection and remained elevated until day 18 post-infection. However, despite significant changes in ileal eosinophil and mast cell numbers, PAF synthesis in the ileum did not differ significantly over the course of the infection. LTB4 and LTC4 production and MPO activity, were significantly elevated in both ileum and jejunum only following worm loss. These results demonstrate that PAF synthesis is altered following primary infection with N. brasiliensis. Changes in PAF synthesis paralleled changes in synthesis of other inflammatory mediators and were associated with hyperplasia of various inflammatory cells. Nevertheless, elevated PAF production is not simply a consequence of intestinal eosinophil and mast cell hyperplasia, as ileal PAF production did not significantly change despite hyperplasia of these cell types.
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PMID:Intestinal platelet-activating factor synthesis during Nippostrongylus brasiliensis infection in the rat. 165 65

Our previous skin chamber studies have shown prominent accumulation of viable neutrophils in human allergic skin reaction sites. To determine whether such neutrophils release components that may be pathogenic in allergic reactions, we have compared the patterns of release of five components: 1) lactoferrin, present in specific granules; 2) and 3) elastase and myeloperoxidase, present mainly in azurophilic granules; 4) lactic dehydrogenase, a cytosolic component generally released during cell damage; 5) histamine, present in mast cells and basophils but not in neutrophils. In 13 pollen-sensitive subjects we found that continuous antigen challenge for 5 h lead to a peak of histamine release into overlying skin chambers during the 1st h, followed by a plateau of low level histamine release over the succeeding 4 h. In contrast, there was no significantly increased released of lactoferrin or elastase during the first h, but significantly increased accumulation of these components at Ag challenge sites over the next 4 h. There was no significant difference at Ag vs buffer control sites in the levels of either myeloperoxidase or lactic dehydrogenase. The increased levels of lactoferrin and elastase at antigen challenge sites in the 2nd to 5th h were not simply a reflection of the greater numbers of neutrophils present in such sites because the levels of these components did not correlate significantly with the number of neutrophils in chamber fluids obtained from individual sites. However, such lactoferrin levels did correlate significantly with the amount of histamine released earlier during the 1st h of Ag challenge at individual sites. These findings suggest a selective in vivo release of neutrophil components in IgE-mediated human allergic skin reactions, possibly related in degree to earlier mast cell activation. Inasmuch as lactoferrin likely plays a role in reactive oxidants effects and elastase is a potent nonspecific protease, release of these agents could play a pathogenic role in late phase allergic reactions.
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PMID:Release of lactoferrin and elastase in human allergic skin reactions. 169 68

We describe a patient with fever and multiple osteolytic bone lesions accompanied by hypercalcemia, a duodenal ulcer, anemia, and thrombocytopenia. Bone marrow showed a dense infiltration by abnormal cells characterized by small basophil granula, erythrophagocytosis and nuclear atypia. These cells were positive for toluidine blue and partly for myeloperoxidase and chloroacetate esterase, expressed myeloid differentiation markers, and exhibited multiple numerical and structural chromosome aberrations. Molecular genetic analysis showed no breakpoint cluster region rearrangement. Electron microscopy demonstrated granula both of basophil and mast cell type. Concluding, in this patient an acute hematopoietic malignancy with many features of malignant mastocytosis but also with signs of a basophil differentiation. This is further support for a hematopoietic stem cell origin of human mast cells.
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PMID:Philadelphia chromosome-negative acute hematopoietic malignancy: ultrastructural, cytochemical and immunocytochemical evidence of mast cell and basophil differentiation. 210 68

The response to daily topical applications of arachidonic acid (0.25-4 mg/ear/day) to the ears of outbred CD-1 mice was monitored. The first application produced erythema, extravasation of plasma proteins resulting in an increase in ear weight, and some neutrophil accumulation (detected histologically and quantified by myeloperoxidase content). The second application produced minimal edema but did cause erythema and a greater accumulation of neutrophils. Subsequent daily application caused erythema, neutrophil accumulation, and an increase in ear weight predominantly due to cell proliferation (epidermis and connective tissue). Daily applications of other unsaturated fatty acids did not match the response induced by arachidonic acid. Mast cell deficient mice (W/Wv) exhibited a smaller edema response to the first dose of arachidonic acid compared to either their wild-type controls or CD-1 mice. In addition, W/Wv mice exhibited a smaller ear weight increase and myeloperoxidase accumulation following eight daily doses of arachidonic acid. However, epidermal proliferation was similar in all the strains of mice tested. These data suggest that the edema caused by the first topical application of arachidonic acid is partly mast cell mediated. Mast cells also appear to be involved in the neutrophil infiltration induced by multiple topical applications, but not in the epidermal proliferation.
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PMID:Multiple topical applications of arachidonic acid to mouse ears induce inflammatory and proliferative changes. 313 72

Eosinophil peroxidase (EPO) at relatively low levels (4-30 mU), when supplemented with H2O2 and a halide, induced mast cell degranulation. Histamine release occurred without concomitant release of the cytoplasmic marker lactic dehydrogenase (LDH), and this, together with ultrastructural studies, indicated a noncytotoxic effect comparable with that induced by other mast cell secretagogues. At pH 7.4, iodide was effective at concentrations down to 10(-5) M, and although chloride alone was ineffective at 0.1 M, a combination of 0.1 M chloride and 10(-6) iodide could meet the halide requirement. Chloride alone was effective at pH 6.5 and 6.0. EPO could be replaced by myeloperoxidase. When the EPO level was increased to 100 mU, combination with H2O2- and iodide-induced cytotoxic histamine release as indicated by concomitant LDH release and ultrastructural evidence of cell disruption. This cytotoxic response reverted to a secretory one on the addition of albumin. Peroxidase was detected on the surface of extruded granules by diaminobenzidine cytochemistry. The mast cell granule (MCG)/EPO complex when supplemented with H2O2 and iodide was more effective than free EPO in the stimulation of mast cell secretion. The stimulation of mast cell mediator release by the EPO-H2O2-halide system and the formation of MCG/EPO complexes with augmented cytotoxic activity may influence the adjacent inflammatory response.
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PMID:Eosinophil peroxidase-induced mast cell secretion. 615 83

Histamine release from rat peritoneal mast cells was evaluated during interaction with IgG, C3b-bi and Concanavalin A-opsonized yeast particles and activated neutrophils. In contrast to others we could show no phagocytic uptake of yeast particles attaching to Fc, or Concanavalin A receptors on the mast cell. Attached yeast particles opsonized with C3b/bi were also poorly ingested (less than 10% of the attached particles.) Neither could we detect any significant histamine release. If, however, neutrophils were added to the mast cell-yeast particle complex, histamine release was induced particularly in the presence of Concanavalin A-yeast. We furthermore showed that phorbol myristate acetate-activated neutrophils and eosinophils initiated mast cell degranulation and histamine release. This release is not dependent on myeloperoxidase, but on other oxidative metabolites, since myeloperoxidase-deficient neutrophils also induce histamine release. These experiments show that mast cells exposed to immune complexes and activated neutrophils or eosinophils may augment the inflammatory response.
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PMID:Histamine release from mast cells during phagocytosis and interaction with activated neutrophils. 620 47

Mast-cell-depleted rat peritoneal exudate cells have been shown to differentiate into pure mast cell cultures when placed in a special medium containing 15% horse serum and 20% L-cell supernatants. In the present communication, the changes that occur within the cells during culture are examined by several parameters. Prior to culture, the cells resemble mononuclear phagocytes morphologically. During culture, their total cell volume and cytoplasmic mass increase, and they develop metachromatic, alcian blue and later on safranin-positive cytoplasmic granules. Proliferation of the cells, as shown by 3H-thymidine incorporation, is optimal between days 3 to 11, and is decreased by changing the composition of the medium or by adding high concentrations of histamine (greater than 10-6M) and heparin (greater than 50 millimicron/ml). By cytochemical staining and by analysis of subfractionated cellular components, eosinophil chemotactic factor (ECF), histamine, beta-glucuronidase, alpha-naphthyl acetate esterase and myeloperoxidase are demonstrated, mostly within the granules. The findings suggest a close morphological and functional relationship between peritoneal mast cell precursors and mononuclear phagocytes.
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PMID:Studies on the in vitro development of rat peritoneal mast cells. 626 48

Heme-containing peroxidases have been demonstrated both biochemically and cytochemically in a variety of cells that either reside in the respiratory tract or circulate through it via the vasculature. The peroxidases in neutrophils and eosinophils have long been known to function in lung defense through their participation in an antimicrobial system involving hydrogen peroxide and chloride ions. Recent studies indicate that this system is also toxic to tumor cells and, as such, it may have a protective or mitigative effect on tumor formation in the lung. Eosinophil peroxidase may be involved in immediate hypersensitivity reactions in the lung because of its secretory effect on mast cells. Platelets contain peroxidases, but how they function is unknown. Whether peroxidase occurs in lymphocytes is controversial, but until more compelling evidence is presented they should be considered peroxidase-negative. A number of cells indigenous to the respiratory tract contain peroxidase activity, but there is considerable variability among species as to its presence and amount. When careful consideration is given to fixation and incubation conditions, peroxidase can be demonstrated cytochemically in the nuclear envelope and endoplasmic reticulum of some endothelial cells and type II cells of certain rodents, but its physiological role is speculative. The alveolar macrophages of most species possess little or no peroxidase activity apart from catalase which can function as a peroxidase under certain conditions. Mast cells in the respiratory tract contain peroxidase, but it is more easily demonstrated biochemically than cytochemically. The function of mast cell peroxidase is unknown, but two hypotheses worthy of investigation are its possible role in modulation of atopic allergic reactions and involvement in an antitumor defense mechanism similar to that of myeloperoxidase. Peroxidase is most abundant in the secretory cells of the tracheobronchial epithelium and glands where, in a number of species, it is synthesized and secreted as a component of mucus. Its possible contribution to lung defense is discussed in view of its morphologic similarity to the antibacterial peroxidase of milk and saliva. Because of the ease with which peroxidases can be demonstrated cytochemically, it is not surprising that morphologic information regarding their distribution in the respiratory tract has greatly exceeded insights into their functional significance. It is hoped that advancements in cell dissociation and culture, along with biochemical isolation and purification techniques, will lead to definitive conclusions concerning their physiologic roles in lung metabolism and defense.
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PMID:The distribution and function of peroxidases in the respiratory tract. 638 50


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