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)

To investigate the role of mast cells in transport abnormalities during intestinal anaphylaxis, we examined responses to antigen in isolated intestinal preparations from ovalbumin-sensitized genetically mast cell-deficient WBB6F1-W/Wv (W/Wv) mice and congenic normal WBBGF1(-)+/+ (+/+) mice. Changes in ion transport (primarily secretion of chloride ions) were indicated by increases in short-circuit current (Isc). In tissues from +/+ mice, antigen caused increases in Isc which were significantly inhibited by antagonists to histamine (diphenhydramine) and serotonin (ketanserin), by a cyclooxygenase inhibitor (piroxicam) and by a neurotoxin (tetrodotoxin). In preparations from W/Wv mice, antigen-stimulated responses were approximately 30% of that in +/+ mice and were inhibited only by piroxicam. Responses to electrical transmural stimulation of nerves were approximately 50% in W/Wv versus +/+ mice, and were inhibited by antagonists of mast cell mediators in +/+ but not W/Wv mice. Reconstitution of mast cells in W/Wv mice by intravenous injection of +/+ bone marrow cells restored the normal responses to both antigen and nerve stimulation. Our results indicate that mast cell-dependent mechanisms are primarily responsible for the ion secretion associated with intestinal anaphylaxis, but that other cells are also involved. In addition, our data provide evidence for the functional importance of bidirectional communication between nerves and mast cells in the regulation of ion transport in the gastrointestinal tract.
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PMID:Role of mast cells in ion transport abnormalities associated with intestinal anaphylaxis. Correction of the diminished secretory response in genetically mast cell-deficient W/Wv mice by bone marrow transplantation. 199 52

1. Systemic capsaicin treatment of the pig depletes the content of sensory neuropeptides (CGRP and tachykinins) in the airways mucosa and skin, without affecting sympathetic and parasympathetic nerves containing NPY and VIP, or the presence and appearance of inflammatory cells including mast cells. Acute capsaicin exposure caused release of sensory neuropeptides and catecholamines, and marked vasodilation in the airways and skin, without signs of plasma protein extravasation or bronchoconstriction. Capsaicin pretreatment effectively desensitizes against local challenges with capsaicin in the airways and skin, as revealed by the absence of vasodilatory responses 2 days later. 2. Cigarette smoke exposure induces marked vasodilatation, lasting for about 5 min in both the upper and lower airways, which seems not to be primarily caused by particulate matter or nicotine in the smoke. Except for a minor capsaicin-sensitive component in the nasal circulation, these responses probably do not involve neural activation, mast cell degranulation or prostaglandin formation. Rather, it is concluded that vapour phase components act on the vessels via unknown mechanisms. 3. Sensitization of pigs with s.c. injections of ascaris antigen was successful, resulting in typical wheal and flare reactions in the skin and bronchoconstriction after local challenge with antigen. The reactivity to ascaris is probably mediated by antibodies of the IgE isotype. 4. Histamine-containing mast cells and sensory neuropeptide-containing nerve fibers show close morphological association around blood vessels in the pig skin. Both alcian blue-positive mast cells and capsaicin-sensitive sensory nerves are present close to the pig airways epithelium. Sensory neuropeptide-containing nerves are also abundant around airways mucosal blood vessels, whereas the bronchial smooth muscle is sparsely innervated. 5. Allergen and histamine injections in the skin caused similar responses consisting of flare and protein extravasation. Allergen challenge in the airways induces marked vasodilatation lasting for 60-90 min in the pig bronchial and nasal circulations. Histamine seems to be important in the early phase (0-20 min) of these responses in the airways, while cyclooxygenase products (possibly PGD2) may be responsible for the longlasting component. A cyclo-oxygenase product is presumably also released from the lung into the circulation after bronchial allergen challenge and thereby induces a delayed, long-lasting nasal vasodilatation. Histamine may be the main bronchoconstrictor agent released in the immediate allergic reaction of the pig. 6. The flare, but not the protein extravasation reaction, to allergen and histamine injections in the skin, was inhibited by capsaicin pretreatment.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Airways vasodilatation in the immediate allergic reaction. Involvement of inflammatory mediators and sensory nerves. 203 38

Exposure of rats to 1-15 Gy of gamma radiation induced hyperthermia, whereas exposure to 20-150 Gy produced hypothermia. Since radiation exposure induced the release of prostaglandins (PGs) and histamine, the role of PGs and histamine in radiation-induced temperature changes was examined. Radiation-induced hyper- and hypothermia were antagonized by pretreatment with indomethacin, a cyclooxygenase inhibitor. Intracerebroventricular administration of PGE2 and PGD2 induced hyper- and hypothermia, respectively. Administration of SC-19220, a specific PGE2 antagonist, attenuated PGE2- and radiation-induced hyperthermia, but it did not antagonize PGD2- or radiation-induced hypothermia. Consistent with an apparent role of histamine in hypothermia, administration of disodium cromoglycate (a mast cell stabilizer), mepyramine (H1-receptor antagonist), or cimetidine (H2-receptor antagonist) attenuated PGD2- and radiation-induced hypothermia. These results suggest that radiation-induced hyperthermia is mediated via PGE2 and that radiation-induced hypothermia is mediated by another PG, possibly PGD2, via histamine.
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PMID:Involvement of prostaglandins and histamine in radiation-induced temperature responses in rats. 230 Jun 72

This study examined the electrophysiological responses to antigen and to various stimuli in jejunal mucosa from rats sensitized to egg albumin with alum and pertussis adjuvants. Luminal antigen caused an immediate increase in short-circuit current, a measure of net ion transport, which was one of three different patterns. All were inhibited by the chloride channel blocker diphenyl-2-carboxylate, by chloride-free buffer, and by doxantrazole, a mast cell stabilizer. Depending on the pattern, the histamine-1 antagonist diphenhydramine, the 5-hydroxytryptamine-2 antagonist ketanserin, and the cyclooxygenase inhibitor piroxicam also reduced the responses. A neural component was indicated by inhibition of the responses to luminal antigen by the neurotoxin tetrodotoxin and by neonatal capsaicin treatment, which depletes substance P-containing nerves. In the absence of antigen, histamine and substance P caused increases in short-circuit current; the magnitude of these changes was significantly greater in tissues from sensitized animals than in controls. These data suggest that sensitization itself may result in hypersecretory responses to some inflammatory mediator and neurotransmitter substances.
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PMID:Allergic reactions of rat jejunal mucosa. Ion transport responses to luminal antigen and inflammatory mediators. 234 44

A cloned murine mast cell line designated MC9 expresses a 5-lipoxygenase activity when stimulated with the ionophore A23187. Upon addition of 0.5 microM ionophore, MC9 cells produce 270 +/- 43 pmoles 5-HETE, 74 +/- 40 pmoles 5,12 diHETEs and 65 +/- 31 pmoles LTC4/10(6) cells from 37 microM exogenously added [1-14C]arachidonic acid in two minutes. 5-HETE and 5,12-diHETES, including LTB4 were identified by GC/MS whereas LTC4 was confirmed by HPLC mobility, bio-assay, RIA and enzymatic transformation. The principal cyclooxygenase products were PGD2 and TxB2 (8.5 +/- 2.4 and 5.4 +/- 1.2 pmoles/10(6) cells respectively). Prostanoids were identified by comigration with authentic standards on two-dimensional thin layer chromatograms. Production of arachidonic acid lipoxygenase metabolites stimulated with ionophore proved relatively insensitive to removal of extracellular Ca+2 and chelation by EGTA. In addition, MC9 5-lipoxygenase required only low micromolar amounts of exogenous arachidonic acid for maximal activity. Whereas production of arachidonic acid metabolites lasted only two to five minutes, histamine release stimulated with ionophore was not initiated until 5 minutes (12 +/- 3% cellular histamine) and continued for 30 minutes (37 +/- 7% cellular histamine). Although these cells metabolize arachidonic acid differently from the classic peritoneal-derived mast cell, they resemble subpopulations found in certain tissues (such as mucosa) and should be useful in understanding the biochemistry of mast cell mediator release.
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PMID:Ionophore-stimulated lipoxygenase activity and histamine release in a cloned murine mast cell, MC9. 240 98

In the present paper we report the results of experiments carried out to measure the release of histamine from isolated rat mast cells during the metabolic activation of arachidonic acid. Arachidonic acid (10(-8)-10(-4) M) and the terminal products (10(-6) M) of the arachidonic acid pathways were devoid of any significant histamine releasing properties. A substantial amount of histamine was released from rat mast cells by low concentrations of arachidonic acid during incubation with prostanoid generating systems, such as guinea-pig lung microsomes, rat serosal macrophages and polymorphonuclear cells and prostaglandin-H-synthase from calf seminal vesicles. The release of histamine was not accompanied by a leakage of lactate dehydrogenase and was blocked by D-mannitol and by lipoxygenase and cyclooxygenase pathway inhibitors. The data are consistent with the hypothesis that free radical derivatives of arachidonic acid, originating from hydroperoxy fatty acids, are generated during catalysis, causing mast cell histamine release.
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PMID:Histamine release from serosal mast cells by intermediate products of arachidonic acid metabolism. 244 Feb 71

The effect of Tranilast [N-(3,4-dimethoxycinnamoyl) anthranilic acid] on the synthesis of prostaglandin D2 (PGD2) by homogenates of rat peritoneal mast cells was investigated. The major cyclooxygenase product formed by mast cell homogenates was PGD2, smaller quantities of PGE2 and PGF2 alpha were also formed. Tranilast suppressed the production of PGD2 in a dose-dependent manner with an IC50 of 0.1 mM. This suppression was due to inhibition of PGD synthetase, but not cyclooxygenase, since the formation of PGE2 and PGF2 alpha were unchanged at a 0.1 mM concentration. In addition, the glutathione-dependent conversion of [14C]PGH2 to PGD2 by PGD synthetase (PGH-D isomerase, EC 5.3.99.2) was inhibited by Tranilast, with 50% inhibition achieved at 0.08 mM in broken cell preparations of rat peritoneal mast cells. Tranilast also inhibited purified rat spleen and brain PGD synthetases. Furthermore, Tranilast prevented the PGD2 generation from intact mast cells stimulated by the calcium ionophore A23187. These results suggest that Tranilast exerts some of its therapeutic effects by prevention of PGD2 generation in mast cells and some other tissues.
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PMID:Inhibitory effect of tranilast on prostaglandin D synthetase. 247 13

Nicotinic acid (niacin) is a B vitamin which is also a potent hypolipidemic agent. However, intense flushing occurs following ingestion of pharmacologic doses of niacin which greatly limits its usefulness in treating hyperlipidemias. Previous studies have demonstrated that niacin-induced flushing can be substantially attenuated by pre-treatment with cyclooxygenase inhibitors, suggesting that the vasodilation is mediated by a prostaglandin. However, the prostaglandin that presumably mediates the flush has not been conclusively determined. In this study we report the finding that ingestion of niacin evokes the release of markedly increased quantities of PGD2 in vivo in humans. PGD2 release was assessed by quantification of the PGD2 metabolite, 9 alpha, 11 beta-PGF2, in plasma by gas chromatography mass spectrometry. Following ingestion of 500 mg of niacin in three normal volunteers, intense flushing occurred and plasma levels of 9 alpha, 11 beta-PGF2 were found to increase dramatically by 800, 430, and 535-fold. Levels of 9 alpha, 11 beta-PGF2 reached a maximum between 12 and 45 min. after ingesting niacin and subsequently declined to near normal levels by 2-4 hours. Levels of 9 alpha, 11 beta-PGF2 in plasma correlated with the intensity and duration of flushing that occurred in the 3 volunteers. Release of PGD2 was not accompanied by a release of histamine which was assessed by quantification of plasma levels of the histamine metabolite, N tau-methylhistamine. This suggests that the origin of the PGD2 release is not the mast cell. Only a modest increase (approximately 2-fold) in the urinary excretion of the prostacyclin metabolite, 2,3-dinor-6-keto-PGF1 alpha, occurred following ingestion of niacin and no increase in the excretion of the major urinary metabolite of PGE2 was found. These results indicate that the major vasodilatory PG released following ingestion of niacin is PGD2. The fact that markedly increased quantities of PGD2 are released suggests that PGD2 is the mediator of niacin-induced vasodilation in humans.
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PMID:Release of markedly increased quantities of prostaglandin D2 in vivo in humans following the administration of nicotinic acid. 247 89

Cells dispersed from human foreskin were passively sensitized with IgE and then depleted or enriched in mast cells by density gradient centrifugation. Arachidonic acid metabolism was initially studied by radio-high-performance liquid chromatography analysis of incubation media from cells that had been prelabeled with [3H] arachidonic acid. In subsequent experiments with unlabeled cells the eicosanoids were quantified by radioimmunoassay. Prostaglandin (PG)D2 was the major cyclooxygenase product released from purified mast cells challenged with anti-IgE or A23187. In density gradient studies there was a significant correlation between PGD2 and histamine release (r = 0.52, p less than 0.01) and between PGD2 release and the numbers of mast cells (r = 0.42, p less than 0.02). There was no correlation with the total numbers of nucleated cells. Other cyclooxygenase products were also detected, the formation of 6-keto-PGF1 alpha and PGE2 being principally associated with gradient fractions containing endothelial cells. Leukotriene (LT)C4 was the major lipoxygenase product detected, reaching a maximum of 3.87 +/- 0.56 ng/10(6) mast cells upon activation with anti-IgE compared with 35.37 +/- 7.22 ng/10(6) mast cells of PGD2. When normalized to histamine release and expressed in molar terms, skin mast cells released approximately 20-fold more PGD2 than LTC4. Thus, the cutaneous mast cell is one likely source of the PGD2 and LTC4 released during cutaneous immediate hypersensitivity reactions.
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PMID:The IgE- and calcium-dependent release of eicosanoids and histamine from human purified cutaneous mast cells. 250 19

Because C3a may be generated during the course of pulmonary inflammatory reactions, we investigated the ability of C3a to affect mucous glycoprotein (MGP) secretion from cultured human airways. C3a, but not C3a des Arg, caused a dose-related increase in MGP release (maximal after 4-6 h), with as little as 15 micrograms of C3a per milliliter stimulating a 40% increase. The experimental evidence suggested that immunologically specific C3a was required for the secretagogue actions, as monospecific anti-C3a inhibited the reaction, as well as specifically absorbing the secretagogue from solution. Moreover, it appeared that C3a does not require mast cell activation, eicosanoid generation, or macrophage-derived mucus secretagogue synthesis for its effect, since (a) no evidence of histamine release accompanied C3a-induced MGP release, and dibutyryl cAMP failed to affect C3a-induced MGP release, while reducing the actions of reversed anaphylaxis; (b) MGP release caused by C3a was not influenced by eicosatetraynoic acid or specific cyclooxygenase inhibitors, and no leukotrienes were detectable on the supernatants of C3a-stimulated airways; and (c) cycloheximide failed to affect C3a secretion-stimulating actions. Thus, C3a is a potent mucus secretagogue, and, possibly, acts directly as a glandular stimulant. It seems likely that C3a generated in the course of pulmonary inflammation might contribute to the mucus secretion associated with pulmonary infections.
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PMID:Anaphylatoxin C3a enhances mucous glycoprotein release from human airways in vitro. 258 36

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