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)

Histamine and serotonin levels in gastric secretion and the effects of pharmacological antagonists were studied in rats in which stomach ulceration was induced by electrical vagal stimulation. Electrical vagal stimulation (2 and 5 V) produced a graded increase in haemorrhagic glandular mucosal ulcers. NaHCO3 perfusion completely neutralised the increased acid output but failed to prevent ulceration. Atropine inhibited gastric mast cell degranulation as well as histamine and serotonin release. Diphenhydramine, atropine and sub-diaphragmatic vagotomy antagonised the increase in intragastric pressure. Diphenhydramine, cimetidine, atropine or vagotomy but not methysergide reduced ulcer severity. It is concluded that gastric acid and serotonin do not play an important role in glandular ulceration induced by electrical vagal stimulation. The lesions probably result from increased intragastric pressure and release of gastric histamine which stimulates H1 and H2 receptors in the stomach. The similarities between the aetiologies of glandular ulcers due to electrical vagal stimulation and to stress are also discussed.
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PMID:The aetiology of gastric ulceration induced by electrical vagal stimulation in rats. 298 10

We previously demonstrated in an ex vivo rat tracheal model that chymotryptic activity is an index of mast cell degranulation and that substance P (SP) and electrical field stimulation (EFS) synergistically degranulate mucosal and connective tissue mast cells. In the current study, we found that the facilitatory effect of SP was apparent at concentrations as low as 10(-9) M. This effect was mimicked by 10(-7) M neurokinin A or by 10(-6) M capsaicin and was blocked by the NK1 receptor antagonist CP-96,345. SP + EFS-induced mast cell secretion was significantly attenuated by 10(-6) M tetrodotoxin. The response was also attenuated in tracheas from rats in which sensory nerves had been depleted by systemic pretreatment with capsaicin or in which sympathetic nerves had been depleted by systemic pretreatment with 6-hydroxy-dopamine. Atropine (10(-6) M) or indomethacin (10(-5) M) also attenuated SP + EFS-induced mast cell secretion. Our findings suggest the importance of a sensitizing rather than a direct stimulating effect of SP on mast cell degranulation. SP may increase the sensitivity of mast cells to EFS-discharged mediators or facilitate the release of mast cell-stimulating mediators from autonomic nerves.
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PMID:Substance P enhances electrical field stimulation-induced mast cell degranulation in rat trachea. 876 24

In the Hooded-Lister rat model, food protein induced intestinal anaphylaxis disrupts the migrating motor complex (MMC) and causes an increased frequency of migrating clusters of contractions (MCCs, including giant migrating contractions (GMCs)) and diarrhea. To determine whether mast cell mediators act on enteric neurons to initiate these alterations in motility, rats were sensitized by intraperitoneal injection of 10 micrograms egg albumin (antigen (Ag)). Seven days later two jejunal manometry catheters were implanted 2.5 cm apart. On day 14, motility was recorded in fasted rats before and after intraluminal challenge with 10 mg Ag in 0.5 mL saline, both without and after pretreatment by specific antagonists. Ag challenge of sensitized animals disrupted MMCs and caused an increase in total MCCs (including GMCs) and diarrhea. Atropine or hexamethonium abolished all intestinal motility, including Ag-induced MCCs, GMCs, and diarrhea. At higher doses, agents that inhibit mast cell degranulation, cromoglycate, doxantrazole, and quercetin, did inhibit Ag-induced MCCs, GMCs, and diarrhea, but at the expense of inhibiting normal intestinal motility. Cimetidine and diphenhydramine together inhibited normal cycling of the MMC, but did not abolish Ag-induced MCCs, GMCs, and diarrhea. Methysergide was ineffective, but cinanserin and WAY 100,289 significantly inhibited, and indomethacin most effectively blocked, the Ag-induced disruption of MMCs and the increase in MCCs, GMCs, and diarrhea. Thus, the altered motility and the diarrhea observed after food protein induced luminal challenge of sensitized rats is dependent upon myenteric neuronal circuitry. The mast cell stabilizers doxantrazole and quercetin block the response because of a nonspecific anticholinergic effect. Cinanserin and WAY 100,289 partially inhibit, and indomethacin most effectively blocks, the response, suggesting that activated mast cells release prostaglandins and perhaps 5-hydroxytryptamine, which stimulate the neuronal pathway.
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PMID:Mediation of altered motility in food protein induced intestinal anaphylaxis in Hooded-Lister rat. 877 13

The in vivo bronchoconstrictor effect of tachykinins in Fisher 344 rats is accompanied by release into the airways of 5-hydroxytryptamine (5-HT). 5-HT is possibly derived from mast cells. In the present study the presumed mast cell-tachykinin interaction was studied in isolated trachea from Fisher 344 rats. Contractions induced by neurokinin A were largely reduced by the 5-HT antagonist methysergide, partially reduced by atropine, but not affected by hexamethonium or tetrodotoxin. Methysergide also inhibited the contractions induced by substance P, the tachykinin NK1 receptor agonist Ac[Arg6, Sar9, Met(O2)11]substance P-(6-11) and the mast cell depleting compound 48/80. Methysergide had no effect on contractions induced by carbachol or electrical field stimulation. Atropine significantly reduced contractions to 5-HT and completely inhibited contractions induced by electrical field stimulation. Histamine had no contractile effect. In vivo pretreatment with compound 48/80 significantly reduced the in vitro contractions to neurokinin A. Contractions to capsaicin were inhibited by methysergide and the tachykinin NK1 receptor antagonist (+/-)-RP67580 ((3alphaR,7alphaR)-(7,7-diphenyl-2-(1-imino-2-(2-methoxyp henylethyl)-perhydraisoinotol-4-one))). Substance P and neurokinin A caused 5-HT release in the organ bath, in a concentration- and time-dependent way. Atropine did not affect 5-HT release. Morphometric analysis showed that substance P and neurokinin A, but not carbachol, caused a significant increase in the number of degranulating mast cells in the muscular/submuscular region. In conclusion, tachykinins contract Fisher 344 rat trachea by releasing 5-HT from mast cells, an effect mediated by a tachykinin NK1 receptor.
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PMID:Role of 5-hydroxytryptamine and mast cells in the tachykinin-induced contraction of rat trachea in vitro. 942 20

Methoctramine, a selective M2 muscarinic cholinergic receptor antagonist, has been reported to activate phosphoinositide breakdown at high concentrations. Its polyamine structure suggests a putative activation of guanine nucleotide-binding proteins (G proteins). Incubation of methoctramine with rat peritoneal mast cells resulted in a dose-dependent noncytotoxic histamine release, with an EC50 of 20 microM and a maximum effect at 1 mM. Atropine, pirenzepine and HHSiD neither inhibited methoctramine-induced histamine release nor stimulated histamine release. Histamine release and inositol phosphates generation induced by methoctramine were both inhibited by pertussis toxin pretreatment. Benzalkonium chloride, a selective inhibitor of histamine secretion induced by basic secretagogues, inhibited the secretory response to methoctramine. [p-Glu5, D-Trp7,9,l0]-SPs5-11 (GPAnt-2), a well-characterized antagonist of G proteins, blocked the methoctramine-induced histamine release when the antagonist was allowed to reach its intracellular target by streptolysin O-permeabilization. The response to methoctramine was prevented by the hydrolysis of sialic acid residues of the cell surface by neuraminidase. The response of mast cells was restored by permeabilization of the plasma membrane. These results demonstrate that methoctramine, following its entry into the cell and the involvement of pertussis toxin-sensitive G proteins, activates phosphoinositide hydrolysis leading to mast cell exocytosis.
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PMID:The M2 muscarinic receptor antagonist methoctramine activates mast cells via pertussis toxin-sensitive G proteins. 960 19


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