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)

The response to antigen (trinitro-phenyl-haptenized ovalbumin) and the modulatory role of several antiallergic drugs was studied in isolated hearts from actively sensitized rats. Antigen induced a triphasic effect on coronary flow (CF) and left ventricular pressure (LVP) characterized by short-term increase (0-1.5 min = phase 1) and a severe decrease (1.5-7.5 min = phase 2) followed by a less pronounced long-lasting decrease (7.5- greater than 20 min = phase 3). The first phase was accompanied with a substantial release of 5-hydroxytryptamine (5-HT), histamine, and leukotrienes measured in cardiac effluents. The histamine2 (H2)-receptor antagonist cimetidine (60 microM) reversed the antigen-induced increase in CF to a decrease. In contrast, H1-receptor blockade by mepyramine (6 microM) had no effect. Methysergide (10 microM) and ketotifen (0.1 microM) evoked a mild suppression during all three phases. Indomethacin (10 microM) was almost inactive while tolfenamic acid (1 microM) was slightly active in this respect during phase 2. Addition of the 5-lipoxygenase inhibitor AA 861 (1 microM) resulted in complete suppression of the antigen-induced decrease in CF. The leukotriene antagonist FPL 55712 (5 and 50 nM) evoked a dose-dependent suppression with respect to the anaphylactic phases 2 and 3. A similar reduction was obtained with sodium cromoglycate (1 mM). AA 861, FPL 55712, and sodium cromoglycate also suppressed the antigen-induced decrease in LVP. The antigen-induced histamine release was not affected by the aforementioned drugs. Our results provide evidence that H2-receptor blockade during cardiac anaphylaxis enhances coronary constriction and may be detrimental in this condition. On the other hand, leukotriene antagonists and 5-lipoxygenase inhibitors may exert beneficial effects during cardiac anaphylaxis. Further experiments in this area are needed to clarify the precise role of mast cell-generated mediators in cardiac anaphylaxis possibly leading to new therapeutic approaches in this life-threatening disorder.
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PMID:Characterization and modulation of antigen-induced effects in isolated rat heart. 172 33

The effects of two degranulators of mast cells and intestinal anaphylaxis on jejunal myoelectric activity were compared in rats fasted for 15 hours. Attempts to antagonize the motility changes were performed using antagonists of histamine and serotonin and a cyclooxygenase and lipoxygenase inhibitor. Hooded Lister rats were chronically fitted with electrodes implanted in the jejunal wall. A group of rats was sensitized to egg albumin and challenged 14 days later by intraduodenal infusion of antigen. Sensitized animals had serum titers greater than or equal to 1:64. The other group was administered with mast cells degranulators. Both 48/80 (1 mg/kg), a degranulator of connective mast cells, and bromolasalocid (2 mg/kg), acting on connective and mucosal mast cells, induced a phase of total spiking inhibition followed by a progressive irregular spiking activity until the recovery of migrating myoelectric complex pattern (about 3 hours after injection). In contrast, antigen challenge disrupted the migrating myoelectric complex pattern, which was replaced by a peculiar pattern characterized by propagated spike burst, lasting 98 +/- 11.3 minutes. Chlorpheniramine (1 mg/kg) antagonized only the inhibitory phase induced by degranulators and was ineffective on the intestinal anaphylaxis-induced motor changes. Methysergide (1 mg/kg) and indomethacin (5 mg/kg) significantly reduced the degranulator effects as well as the anaphylaxis-induced alterations of intestinal motility. It is concluded that anaphylaxis-induced motor disturbances are relevant to mucosal mast cell degranulation involving 5-hydroxytryptamine and arachidonic acid derivative products, whereas histamine release appears to be a minor component.
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PMID:Relationship between mast cell degranulation and jejunal myoelectric alterations in intestinal anaphylaxis in rats. 172 48

WEB 2086 reduced the increase in vascular permeability induced by platelet-activating factor (PAF-acether) in rat abdominal skin. Injected alone, WEB 2086 did not modify the oedema induced by zymosan in rat paw. However, administered with methysergide and mepyramine, WEB 2086 reduced the development of this oedema during the first two hours. WEB 2086 also reduced the volume of the exudate induced by zymosan in the peritoneal cavity and its content in leucocytes. Methysergide and mepyramine reduced the volume of the peritoneal exudate. BW755C inhibited the peritoneal accumulation of fluid and of leucocytes. Indomethacin was inactive. The inhibitory effect of WEB 2086 suggests that PAF-acether is involved in the inflammatory responses induced by zymosan in rats beside other endogenous factors such as lipoxygenase products and mast cell amines.
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PMID:Inhibition by WEB 2086, a PAG-acether antagonist of oedema and peritonitis induced by zymosan in rats. 207 45

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

A single intraperitoneal injection of compound 48/80 (48/80) (0.5-3 mg/kg) into anesthetized rats caused a dose-dependent reduction of the transmucosal potential difference (PD) and intraluminal pH (pH), and induced gastric lesions within 2 h. These same changes were seen with an intraperitoneal injection of histamine, but not with serotonin. There was a significant correlation between the lesion index and the PD reduction, although the integrity of the resting gastric mucosal barrier remained unaltered. The PD reduction caused by 48/80 was dose-dependently inhibited by tripelennamine (H1-antagonist) and FPL-52694 (mast cell stabilizer) and partially suppressed by methysergide (serotonin antagonist), but the changes in pH were prevented by FPL-52694 and cimetidine (H2-antagonist). The reduction of PD and pH induced by histamine was inhibited by tripelennamine or cimetidine, respectively, but these responses were not inhibited by FPL-52694 or methysergide. Gastric lesions induced by 48/80 were potently inhibited by tripelennamine and FPL-52694, and partially by cimetidine, whereas those induced by histamine were significantly prevented by tripelennamine and cimetidine, but not by FPL-52694. Methysergide had no effect on the development of gastric lesions in response to 48/80 or histamine. These results suggest that a single injection of 48/80 reduced the PD and stimulated acid secretion, thereby producing gastric lesions. These effects of 48/80 may be due to activation of H1- and H2-receptors by acutely released endogenous histamine.
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PMID:Mechanisms of irritative activity of compound 48/80 on rat gastric mucosa. 394 Feb 36

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 major objective of this study was to systematically elucidate the mechanisms underlying microvascular permeability in rat mesenteric venules after the activation of perivascular mast cells. Intravital microscopy was used to assess polymorphonuclear leukocyte (PMN) infiltration and microvascular permeability alterations in single 25- to 40-micron diameter venules. Ruthenium red was used to detect mast cell activation on-line. Exposure of mast cells to compound 48/80 (CMP 48/80) caused a rapid mast cell activation and increase in microvascular permeability (within 15 min) that was maintained for the duration of the experiment. CMP 48/80 also increased PMN adhesion to the microvascular endothelium. Anti-PMN serum, as well as various antiadhesion therapies, including CL26 (anti-CD18 antibody) and fucoidan (selectin-immunoneutralizing carbohydrate), revealed that the early microvascular permeability was PMN independent. However, these regimens significantly reduced plasma protein leakage out of venules between 30 and 60 min. Methysergide (serotonin receptor antagonist), but not diphenhydramine (histamine receptor antagonist), inhibited the early PMN-independent microvascular permeability. Finally, a platelet-activating factor (PAF)-receptor antagonist did not affect the early phase of microvascular permeability but reversed the later phase, consistent with PAF's role as a proadhesive molecule for PMN during mast cell activation. These data demonstrate that, within the first hour of mast cell activation, a biphasic PMN-independent and -dependent response in microvascular permeability is observed. The data also raise the possibility that histamine's physiological role in this model may be unrelated to alterations in microvascular permeability.
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PMID:Rapid mast cell activation causes leukocyte-dependent and -independent permeability alterations. 899 3

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

Compound 48/80 induced scratching behavior in BALB/c mice, and the role of mast cell mediators in this behavior was examined. Mouse scratching behavior was detected and evaluated using a new apparatus, MicroAct. Compound 48/80 increased the incidence of scratching behavior and scratching time in a dose-dependent manner, accompanied by a potent activation of mast cells and a potent increase in vascular permeability. Dibucaine and mu-opioid receptor antagonists inhibited the scratching behavior. Although histamine H(1) receptor antagonists potently inhibited the vascular permeability increase, they did not affect the scratching behavior. Methysergide inhibited the scratching behavior slightly without affecting the vascular permeability increase, whereas cyproheptadine inhibited both. A cyclooxygenase inhibitor, a 5-lipoxygenase-activating protein inhibitor and a PAF receptor antagonist did not affect the scratching behavior. High doses of serotonin induced scratching behavior less frequently than did compound 48/80. Furthermore, mast cell-deficient WBB6F1-W/W(v) mice exhibited frequent scratching behavior after injection of compound 48/80. These results clearly indicate that compound 48/80 can induce scratching behavior in mice independent of mast cell mediators.
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PMID:Involvement of unique mechanisms in the induction of scratching behavior in BALB/c mice by compound 48/80. 1214 39

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