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)

The cyclic adenosine 3', 5'-monophosphate (cAMP) content of isolated unstimulated mast cells and the changes induced by a variety of pharmacologic, metabolic, and physical stimuli were studied. A modified bovine serum albumin density gradient purification method consistently provided mast cell preparations which were 95% or more pure, without apparent damage, and a 73% recovery of the mast cells applied to the gradients. The measured cAMP in unstimulated mast cells was high, a mean of 16 picomoles per million cells. Moderate agitation or contact with glass increased cAMP content about 2-fold. When calcium was omitted from the medium mast cell cAMP was markedly elevated; incremental increases in added calcium ion concentration from 1 muM to 1 mM caused a linear decrease in cAMP content. Theophylline (3 to 20 mM) caused a dose-related increase in mast cell cAMP content, approximately 2-fold at 20 mM theophylline. Epinephrine (0.01 to 1 mM) caused a modest, dose-related increase in cAMP. In the presence of theophylline, epinephrine increased cAMP levels equal to or greater than the sum of the effects of the agents used individually. The increase in cAMP induced by epinephrine was completely inhibited by 100 muM propranolol and partially inhibited by 10 muM propranolol, thus suggesting that a beta adrenergic receptor is involved. Prostaglandin E1 (PGE1) and histamine (in the presence of theophylline) also raised cAMP. Carbamylcholine (1 nM) lowered cAMP 38%; Atropine (0.1 mM) inhibited the decrease in cAMP induced by 1 nM carbamylcholine by 83% indicating that a muscarinic receptor is involved. In these homogeneous single cell suspensions, therefore, cholinergic and beta adrenergic agents have opposing effects on cAMP levels. Diazoxide (10 muM) and adenine (1 muM) caused 37 and 32% decreases in cAMP, respectively. The availability of highly purified mast cells and the identification of agents which either decrease or increase cAMP content allows a direct examination of the role of cAMP in histamine release.
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PMID:Modulation of cyclic AMP in purified rat mast cells. I. Responses to pharmacologic, metabolic, and physical stimuli. 4 63

The effects of cystamine on gastric secretion were studied in conscious and anaesthetized rat preparations. In the conscious gastric fistula rat cystamine inhibited the basal acid output but increased pepsin output. This pepsinogogue action was inhibited by both atropine and metiamide. In the anaesthetized rat cystamine stimulated gastric acid output, an effect blocked by cimetidine which had an inhibitory E.D. 50 which was not significantly different from that obtained against histamine-stimulated secretion in this preparation. Atropine at high doses failed to inhibit the response. Depletion of mast cell histamine by compound 48/80 the secretory response to cystamine. In the light of these results possible mechanisms of action for the secretagogue effects of cystamine are discussed.
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PMID:The effect cystamine on gastric secretion in the rat. 38 37

The effects of atropine, mepyramine, metiamide or NaHCO3 on gastric ulceration, gastric secretion and gastric mast cell degranulation were studied in stressed pylorus-occluded rats. The influence of dexamethasone pretreatment on stress ulcers in animals without pylorus occlusion (intact rats) was also examined. Stress produced a high glandular lesion incidence and ulcer index, and markedly lowered gastric secretion and glandular wall mast cell counts. Injected 0.5 h before stress, atropine, mepyramine or metiamide strongly antagonised ulceration. Atropine or metiamide, but not mepyramine, reduced gastric secretion. Only atropine prevented stress-induced mast cell changes. NaHCO3, given intragastrically before stress, did not prevent ulceration or mast cell degranulation despite complete neutralisation of gastric acid. Dexamethasone-induced gastric mucosal mast cell depletion could reduce stress ulceration. The findings show that stress degranulates stomach mast cells via a cholinergic pathway; released histamine from this source is largely responsbile for gastric ulceration through H1- and H2-receptor effects. Histamine H2-receptor-mediated gastric acid may play only a small contributory role in stress ulcers in rats. The antiulcer mechanisms of histamine H1- and H2-receptor blockade are discussed.
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PMID:Cholinergic-mediated gastric mast cell degranulation with subsequent histamine H1-and H2-receptor activation in stress ulceration in rats. 43 42

An asthmatic atopic patient who developed bronchoconstriction during repeated forced vital capacity manoeuvres and after exercise is reported. Since increases in total airway and upper segment resistances and drop in FEV1 and Vmax 50 were induced, it is considered that bronchoconstriction involved most of the airways. Partial prevention of this effect could be demonstrated after inhalation of an adrenergic bronchidilator or disodium cromoglycate. Atropine completely prevented the flow response but did not alter the total airway resistance increase. Bronchoconstriction is interpreted as partially related to mast cell disruption and cholinergically mediated stimuli.
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PMID:Bronchoconstriction induced by repeated forced vital capacity manoeuvres. 81 29

The effect of prednisolone on the substance P (SP)-induced vascular permeability increase in male ddY, WBB6 F1(-)+/+ (control) and WBB6 F1-W/WV (no mast cell in skin or internal organs) mice was investigated. 1) SP (1-10,000 pg/site) increased vascular permeability in ddY, WBB6 F1(-)+/+ and WBB6 F1-W/WV mice ears. 2) SP (100 pg/site)-induced vascular permeability was inhibited by prednisolone (10 mg/kg) administered intraperitoneally 3 to 12 hours prior to the elicitation of the reaction in ddY mice. When dexamethasone at a dose of 1 mg/kg was administered intraperitoneally 2 to 24 hours prior to the elicitation of the reaction, significant inhibition was observed. When prednisolone was administered intraperitoneally 8 hours prior to the elicitation of the reaction, the SP-induced capillary permeability increase in both ddY and WBB6 F1-W/WV mice was clearly inhibited by the drug at doses of 5 and 10 mg/kg. 3) Diphenhydramine (1 and 10 mg/kg) inhibited SP-induced vascular reaction in ddY mice but not in WBB6 F1-W/WV mice. 4) Atropine (10 mg/kg) inhibited SP-induced vascular reaction in both ddY and WBB6 F1-W/WV mice. But acetylcholine did not cause an increase of vascular permeability in ddY and WBB6 F1-W/WV mice ears. 5) Prednisolone (5 mg/kg) inhibited histamine- and serotonin-induced vascular permeability in ddY and WBB6 F1-W/WV mice ears. 6) Prednisolone (5 and 10 mg/kg) inhibited the SP-induced histamine release from ddY mice peritoneal mast cells. These results suggest that the vascular effect of SP is mediated by both mast cell dependent (release of histamine from mast cells) and mast cell independent mechanisms. Prednisolone inhibits the SP-induced vascular permeability mediated by both mechanisms in mice.
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PMID:The effect of prednisolone on substance P-induced vascular permeability in mice. 138 66

The allergic bronchoconstriction in guinea pigs has been attributed mainly to the release of mast cell mediators. Histamine has been involved in the first minutes of the anaphylactic reaction and new-formed compounds in the subsequent response. In this asthma model the vagal influence has been sparsely investigated. In the present work we evaluated the pharmacological modification of the acute allergic bronchoconstrictor response in guinea pigs sensitized to ovalbumin through aerosol exposure. Pyrilamine (20 micrograms/kg), diethylcarbamazine (a lipoxygenase inhibitor, 10 mg/kg) and dexamethasone (4 mg/kg) each reduced the antigen-induced bronchoconstriction throughout the 30 min studied. Indomethacin (3.1 mg/kg) did not modify the response to the antigen. Atropine (2 mg/kg) plus bilateral vagotomy also diminished this response from 5 min onward. On the other hand, from 5 min ahead pyrilamine-resistant bronchoconstriction was partially inhibited by dexamethasone, and it was almost completely blocked during all of the response when atropine plus bilateral vagotomy were added to dexamethasone. Dipyridamole (an inhibitor of the adenosine uptake, 0.4 mg/kg) enhanced the bronchoconstriction, though this was significant only in the 2-5 min time-interval of the response. These results suggest that histamine and vagal influence play an important role in the whole response to antigen, that other mediators, probably leukotrienes, participate in this response from 5 min onward, and that adenosine could exert a potentiation effect on this response.
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PMID:Pharmacological characterization of mediators and vagal influence in the acute allergic bronchoconstriction in guinea pigs. 228 Jul 95

Net ion transport by jejunum of rats immunized against Trichinella spiralis on challenge with parasite-derived antigen was measured in Ussing chambers as a rapidly expressed, biphasic rise and fall (phase I and II) in short-circuit current (delta Isc). This delta Isc is triggered by mucosal anaphylaxis. Our objective is to identify mast cell-derived substances that mediate the epithelial response. Antigenic challenge of sensitized jejunum caused the release of 5-hydroxytryptamine (5-HT), histamine, and prostaglandin E2 (PGE2). The antigen-induced phase I response was mimicked by exogenous 5-HT or histamine and blocked by pretreatment of tissue with 5-HT and histamine H1-antagonists; the phase II response was mimicked by exogenous PGE2 and blocked by an inhibitor of prostaglandin synthesis. Atropine and tetrodotoxin significantly blunted the phase I response as well as the delta Isc caused by exogenous 5-HT or histamine while only slightly reducing the phase II response and not affecting the delta Isc induced by PGE2. Results support the conclusion that 5-HT, histamine, and PGE2 mediate the antigen-induced change in Isc through direct and neurally mediated stimulation of jejunal epithelium.
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PMID:Mediators of anaphylaxis-induced ion transport changes in small intestine. 244 13

The effects of flutropium bromide (Ba598Br), a new antiasthma drug possessing the quarternary ammonium structure of atropine derivatives, on mediator release from mast cells and on actions of leukotriene (LT) D4 and serotonin were investigated. Flutropium bromide (3 and 10 mg/kg, i.v.) showed an inhibitory action on the 48 hr homologous PCA in guinea pigs. Atropine showed no inhibitory effect. Flutropium bromide also inhibited the release of histamine from isolated rat mast cells stimulated by antigen, although the inhibitory action was weaker than that of disodium cromoglycate. Atropine also had no inhibitory action in this case. Flutropium bromide and atropine showed no antagonistic action against LTD4-induced contraction of isolated tracheal smooth muscle of guinea pigs. Inhalation of flutropium bromide (0.3%) also showed no antagonistic action against serotonin-induced bronchoconstriction in dogs. From the above results, it is indicated that flutropium bromide has a weak mast cell stabilizing action, but no antagonistic action against LTD4 and serotonin.
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PMID:[Effects of flutropium bromide, a new antiasthma drug, on mediator release from mast cells and actions of mediators]. 245 23

Antigen challenge of jejunal epithelium from rats sensitized to egg albumin induces an active Cl- secretory process secondary to release of mucosal mast cell mediators. The present study was designed to define the relative role of these mast cell mediators and the enteric nervous system in the transport abnormalities associated with intestinal anaphylaxis. Net ion transport of stripped jejunal tissue from sensitized and sham-treated animals was studied in Ussing chambers. The Cl- secretory response induced by egg albumin during intestinal anaphylaxis was similar to that after addition of 5-hydroxytryptamine (5-HT), histamine, and prostaglandins D2 and E2 to jejunal tissue. Cinanserin, a 5-HT2-receptor antagonist, virtually abolished the response to 5-HT and totally abolished the response to egg albumin. Methysergide, a 5-HT1-receptor antagonist had no effect on either response. Indomethacin, an inhibitor of prostaglandin synthesis, significantly inhibited the 5-HT and egg albumin response. Diphenhydramine, an H1-receptor antagonist and cimetidine, an H2-receptor antagonist both significantly inhibited the histamine response but neither altered the response to egg albumin. Atropine, an anticholinergic, and tetrodotoxin, a nerve blocker, did not inhibit the antigen induced anaphylactic response. These results indicate that 5-HT, acting through 5-HT2 receptors is largely responsible for the transport abnormalities seen in intestinal anaphylaxis induced by egg albumin while prostaglandins appear to play a partial role. The findings do not support a role for the enteric nervous system for the egg albumin induced changes in Cl- secretion.
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PMID:Intestinal anaphylaxis in the rat: mediators responsible for the ion transport abnormalities. 251 72

Transitory swelling of mesenteric mast cells was observed when 24 h-fasted rats were given access to food. Atropine, an anti-muscarinic drug given (1 mg/kg, i.p.) 60 min prior to feeding, prevented this response; carbachol, a cholinomimetic drug caused it to occur when given (2 micrograms/kg, i.v., 10 min) to fasted rats. Mast cells in the mesentery excised from fasted rats, presented swelling in vitro within 1 min following exposure to 10(-7) M carbachol. This response was inhibited by atropine (10(-8) M) or hexamethonium (10(-8) M), indicating that stimulation of a parasympathetic nerve pathway, reported to exist in rat mesentery, could induce mast cell swelling. Exposure to a Ca2+ free medium also led to rapid swelling of mast cells in the mesentery excised from fasted rats. This result, as well as inhibition of the mast cell response to carbachol caused by increasing the Ca2+ (but not by increasing the Mg2+) content of the incubation medium, suggests that swelling was caused by a sudden decrease of Ca at mast cell membrane sites controlling ion/water fluxes. Mast cells swollen by feeding, carbachol or Ca-lack, reverted to their original condition within 20 min when incubated in balanced salt buffer. Such reversal did not occur in a KCl-enriched medium. An equivalent (in terms of ionic strength), increase in NaCl, did not reproduce this effect, indicating that mast cells have K+-dependent means of compensating for endogenously or drug-induced volume changes. Swelling caused by cholinergic stimulation of mast cells was not accompanied by granule exocytosis.2+ carbachol-treated rat blood in vivo or in vitro, is discussed in terms of putative mast cell-controlled, localized homeostasis in the rat mesentery.
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PMID:Atropine and hexamethonium-sensitive, Ca/K-modulated, reversible swelling of mast cells in rat mesentery, due to feeding or exposure to carbachol. 290 18

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