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)

Hamster mast cells have been found to give strong peroxidatic reactions at pH 5, 7.5 and 10 when sections of skeletal muscle are incubated for 2.5 h in the dark at room temperature on semipermeable membranes covering a gelled incubation medium consisting of 0.01% hydrogen peroxide, 5.5mM diaminobenzidine and 1.36% agar dissolved in Universal buffer. The technique is very efficient: with it, all mast cells react in marked contrast to the negative reaction they usually give with conventional techniques. The peroxidatic reactions are abolished if tissues are perfused beforehand with either aminotriazole or KCN but not if these inhibitors are incorporated in the gelled incubation medium. This and other evidence suggests that the mast cell reactions are not due to either catalase or haemoglobin adsorbed onto mast cell granules from lysed red blood cells. Skeletal muscle fibres do not exhibit any visible peroxidase activity with the membrane technique.
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PMID:Endogenous peroxidase in mast cells localized with a semipermeable membrane technique. 66 84

In this study we investigated the effects of long wave ultraviolet light (UVA) and various doses of protoporphyrin (PP) on the release of histamine from rat peritoneal and cutaneous mast cells. We also correlated these results with morphologic characteristics and viability of the cells. PP at a dose of 30 ng/ml plus UVA-induced negligible histamine release from rat peritoneal mast cells (RPMC), but was able to suppress the ability of the cells to release histamine in response to subsequent exposure to the calcium ionophore A23187, compound 48/80, or the combination of Ag and IgE. This functional change was associated with an increase in cell size, and cell lysis that gradually occurred during 24 h in culture. PP at a dose of 3 ng/ml plus UVA also significantly inhibited secretogogue-induced histamine release from rat peritoneal mast cells, but this dose was not associated with significant changes in morphology or viability. These various effects of PP plus UVA were also observed with mast cell preparations obtained by the enzymatic dispersion of rat skin. The suppression of secretogogue-induced histamine release in rat peritoneal mast cells treated with PP (3 ng/ml) and UVA could not be reversed by culturing the cells in the dark for 24 h in the absence of PP. Unlike the direct cytotoxic histamine releasing action of high doses of PP plus UVA, the suppressive effect of low PP doses could not be inhibited by catalase, but could be reduced by the absence of calcium. Our results indicate that PP plus UVA has dual effects on mast cells, apparently involving distinct mechanisms. This implies the possibility that PP and UVA at appropriate doses could be used in photochemotherapy of mast cell-mediated skin diseases.
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PMID:Dual effects of protoporphyrin and long wave ultraviolet light on histamine release from rat peritoneal and cutaneous mast cells. 169 61

Catalase is a characteristic enzyme of peroxisomes. To study the molecular mechanisms of the biogenesis of peroxisomes and catalase in a less complex system than rat liver cells, we expressed recombinant rat catalase in Escherichia coli, which has no peroxisomes. The concentration of recombinant catalase produced in E. coli transformed with the expression vector carrying the complete coding region of rat catalase cDNA was about 0.1% of the total soluble protein. The recombinant catalase was purified by DEAE-cellulose column chromatography followed by acidic ethanol precipitations. The properties of rat liver catalase and those of the recombinant were similar with respect to molecular mass, catalytic properties, profiles of absorption spectra, and iron contents. The NH2-terminal amino acid sequence of the purified recombinant catalase, as determined by Edman degradation, was in complete agreement with the amino acid sequence predicted from the nucleotide sequence of rat catalase cDNA, except that the first initiator methionine was not detected. The COOH-terminal amino acid sequence was determined by carboxypeptidase A digestion and the sequence, -Ala-Asn-Leu-OH, matched the predicted COOH-terminal amino acid sequence of rat catalase. Recombinant rat catalase gave almost the same multiple protein bands on native polyacrylamide gel isoelectric focusing as observed with authentic rat liver catalase.
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PMID:Purification and properties of recombinant rat catalase produced in Escherichia coli. 220 16

The effect of pretreatment with various concentrations of catalase, superoxide-dismutase, D-mannitol, alpha-tocopherol, n-acetylcysteine and reduced glutathione on the release of histamine induced by adriamycin (100 micrograms/ml) on rat peritoneal mast cells was studied. Adriamycin caused an important histamine release in vitro which was not affected by pretreatment with the tested substances. Only n-acetylcysteine, at a very high concentration (1 X 10(-1) M) significantly limited this release. The substance was also active in inhibiting the release induced by a classic mast cell secretagogue, compound 48/80.
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PMID:Adriamycin-induced histamine release from rat peritoneal mast cells: role of free radicals. 244 72

The antineoplastic drug adriamycin, at a concentration of 100 micrograms/ml, caused a significant histamine release from rat peritoneal mast cells. This exocytotic process was unaffected by pretreatment with various concentrations of catalase, superoxide-dismutase, D-mannitol, alpha-tocopherol and reduced glutathione. Only very high concentrations of n-acetylcysteine significantly limited this release; this substance was also active in limiting histamine secretion induced by a classic mast cell secretagogue, compound 48/80.
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PMID:Evidence for the lack of involvement of free radicals in adriamycin-induced histamine release from rat peritoneal cells. 245 89

A new purification procedure for isocitrate lyase from Pinus pinea is reported. The final preparation shows charge homogeneity and a purity degree higher than 95%. It is possible to remove catalase completely by exploiting the high hydrophobicity of isocitrate lyase. The enzyme has a Mr of 264,000 and is likely composed of four subunits, each with a Mr of 66,000. The binding of radioactively labeled oxalate revealed four catalytic sites per oligomer. These data suggest that isocitrate lyase subunits are similar, if not identical. The Michaelis constant for isocitrate is equal to 33 microM; molecular activity is about 2670 mol X min-1 X mol of enzyme-1. The amino acid composition of the enzyme was also determined. Isocitrate lyase appears resistant to proteolysis by carboxypeptidase A. Hydrazinolysis, Edman degradation, and dansyl chloride treatment indicate that both carboxy and amino terminals are probably inaccessible or blocked.
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PMID:An isocitrate lyase of higher plants: analysis and comparison of some molecular properties. 394 71

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

Exposure to ozone has been reported to cause increased immediate bronchial reactivity to inhaled allergen in asthmatics. The purpose of these studies was to determine whether ozone induces either spontaneous physiological degranulation or enhanced immunoglobulin E (IgE)-mediated degranulation of mast cells, thus accounting for the in vivo effects noted in asthmatics. A rat mast cell line (RBL-2H3) was exposed to different levels of ozone (0.1, 0.3, 0.5, and 1.0 ppm), covered by different amounts of buffer, and both cytotoxic and nontoxic exposure conditions were determined. In addition to cytotoxicity, spontaneous release of granule products and prostaglandin D2 (PGD2) associated with ozone exposure were assessed. RBL-2H3 cells were also exposed to ozone under noncytotoxic conditions followed by stimulation with alpha-IgE to cross-link membrane-bound IgE and A23187 so that the effect of ozone on stimulated degranulation could be examined. Only exposure conditions associated with cytotoxicity were associated with spontaneous release of mast cell serotonin, indicating no physiologic degranulation due to ozone exposure. Data presented herein also demonstrate that ozone substantially inhibited both IgE- and A23187-induced degranulation. Neither catalase nor superoxide dismutase protected cells from the inhibitory effect of ozone, indicating that ozone does not act through generation of H2O2 or superoxide. Additionally, ozone caused a modest increase in spontaneous PGD2 generation only under cytotoxic conditions. Thus ozone appears to inhibit mast cell degranulation after IgE- or A23187-mediated stimulation and causes direct release of mast cell granule products and PGD2 only under conditions associated with membrane cytotoxicity.
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PMID:Modulation of mast cell functions by in vitro ozone exposure. 761 32

The objective of this study was to determine whether ischemia-reperfusion (I/R) of the small bowel activated mast cells and, if so, to determine whether this event contributed to granulocyte infiltration and mucosal barrier dysfunction. Autoperfused segments of the jejunum were exposed to 30 min of ischemia followed by 60 min of reperfusion. Epithelial permeability was assessed by the clearance of 51Cr-labeled EDTA from plasma to lumen. Plasma rat mast cell protease II (RMCP II) was measured and used as an index of mucosal mast cell degranulation, whereas myeloperoxidase (MPO) activity was used as an index of granulocyte infiltration. I/R caused a significant increase in plasma RMCP II levels, MPO activity, and epithelial permeability. The mucosal mast cell stabilizer doxantrazole prevented the I/R-induced increase in all three parameters. The connective tissue mast cell stabilizer ketotifen had no effect. To determine whether oxidants were involved in mast cell degranulation, some animals were pretreated with superoxide dismutase and catalase. This regimen completely abolished the I/R-induced rise in plasma RMCP II levels and attenuated mucosal MPO activity and epithelial permeability. Selective inhibitors of two mast cell-derived mediators, platelet-activating factor and histamine, did not attenuate the rise in epithelial permeability. These data suggest that oxidant-induced mucosal mast cell degranulation is a key event in the granulocyte infiltration and tissue dysfunction associated with reperfusion of the ischemic intestine.
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PMID:Mast cells contribute to ischemia-reperfusion-induced granulocyte infiltration and intestinal dysfunction. 807 30

Previous reports indicate that intestinal intraluminal ethanol increases mucosal permeability (an index of mucosal injury) and histamine release by mast cells, and that the released histamine plays a role in mediating the increased permeability. In the present study, we investigated whether reactive oxygen metabolites and their major sources (xanthine oxidase and leukocytes) were involved in these ethanol effects. In rabbits, segments of the jejunum were perfused with a control solution or with 6% ethanol. In these segments, mucosal permeability was assessed by determining jejunal clearance of i.v. administered 51Cr-ethylenediaminetetraacetate (51Cr-EDTA) and 125I-bovine serum albumin (125I-BSA), and mast cell histamine release was estimated from the histamine concentration of the gut effluent. Ethanol increased 51Cr-EDTA clearance, 125I-BSA clearance, and histamine release. These ethanol effects decreased when the animals were given superoxide dismutase plus catalase (scavenger of O2- and H2O2, respectively), allopurinol, or oxypurinol (xanthine oxidase inhibitors). Administration of a monoclonal antibody (R15.7) against leukocyte adhesion molecule, CD18, inhibited completely the ethanol-induced increased 51Cr-EDTA and 125I-BSA clearances and histamine release. These and supplementary data suggest that (a) ethanol-induced mucosal injury and mast cell histamine release are mediated primarily by leukocytes, and (b) oxy radicals, especially those generated by xanthine oxidase, mediate these ethanol effects mainly by promoting leukocyte infiltration.
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PMID:Role of xanthine oxidase-derived oxidants and leukocytes in ethanol-induced jejunal mucosal injury. 901 59


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