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 objective of this study was to determine whether ischemia and reperfusion (I/R) and/or chronic arterial hypertension potentiates the leukocyte-endothelial cell adhesion (LECA) and microvascular dysfunction elicited by oxidized low-density lipoproteins (ox-LDL). Mast cell degranulation, leukocyte adherence and emigration, and albumin leakage were monitored in postcapillary venules of rat mesentery. Intra-arterial infusion of copper-oxidized LDL (Cu-LDL), at a concentration that does not directly affect the microvasculature, significantly enhanced the I/R-induced recruitment of adherent and emigrated leukocytes but does not affect the increased albumin leakage and mast cell degranulation responses normally observed after I/R. Infusion of a higher concentration of Cu-LDL in nonischemic mesentery of either normotensive Wistar-Kyoto or spontaneously hypertensive rats elicited significant yet similar increases in LECA, mast cell degranulation, and albumin leakage. These findings indicate that 1) ox-LDL act synergistically with I/R to promote leukocyte recruitment in postcapillary venules but without an accompanying exacerbation of albumin leakage, and 2) ox-LDL do not elicit a more intense inflammatory response in the microvasculature of hypertensive versus normotensive animals.
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PMID:Oxidized low-density lipoproteins and microvascular responses to ischemia-reperfusion. 899 11

In the present study, the possible role of mast cells in ischemia/reperfusion-induced myocardial injury was evaluated in the isolated 'mast cell depleted' rat heart. Hearts isolated from sensitized and non-sensitized rats were perfused according to Langendorff. After 30 min of normoxic perfusion, hearts were challenged with antigen, a procedure which is known to result in a massive mast cell degranulation in sensitized hearts. After another 20 min, both 'mast cell depleted' and control hearts were subjected to 30 min of ischemia followed by 30 min of reperfusion. The release of lactate dehydrogenase (LDH) was determined, to quantitate the extent of irreversible injury of cardiomyocytes. Histamine release was measured to establish mast cell degranulation. Coronary flow (CF) and left ventricular developed pressure (LVDP) were monitored to study the consequences of the procedures on hemodynamic recovery. It was found that both CF and LVDP significantly increased during the first min after antigen challenge. These changes were accompanied by an almost complete degranulation of cardiac mast cells. The increase in CF and LVDP values were rapidly followed by a decrease, reaching minimal values of 159 +/- 4% and 85 +/- 4% of those before administration of antigen, respectively, at 2-3 min after antigen challenge. No effect of antigen challenge on LDH release were found indicating that mast cell degranulation did not compromise myocyte integrity. During reperfusion following 30 min of ischemia both the increase in CF and LVDP in 'mast cell-depleted' hearts were not significantly different from those in control (non-sensitized) hearts. Similarly, at the end of the reperfusion-phase, CF and LVDP values in sensitized hearts were comparable to those in control hearts. Reperfusion results in increased LDH release, which at no point in time was significantly different between sensitized and non-sensitized hearts. In non-sensitized hearts histamine release during the reperfusion phase was not detectable. Therefore, the results indicate that in the isolated rat heart, mast cells are most likely not involved in acute ischemia/reperfusion-induced myocardial injury.
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PMID:Antigen-evoked mast cell degranulation in the isolated rat heart: no effect on subsequent ischemia-reperfusion induced damage. 908 42

Striated muscle becomes stunned during reperfusion after sublethal ischemia. Resistance vessel tone and reactivity are altered in stunned muscle tissues. The hypothesis that adenosine-regulated mast cell degranulation occurs during reperfusion and leads to constriction of resistance arterioles was tested. The hamster cremaster muscle was subjected to 1 h of ischemia followed by reperfusion. Resistance arterioles constricted during reperfusion (74% of maximal diameter at baseline vs. 42% of maximal diameter after 30 min of reperfusion; P < 0.01). Mast cells degranulated in reperfusion concomitant with arteriolar constriction. Stimulation of mast cell degranulation in control animals with compound 48/80 or cold superfusate (21 degrees C) caused vasoconstriction that mimicked that seen in reperfusion. The mast cell stabilizer cromolyn blocked degranulation and constriction. If mast cell granules were depleted by applying compound 48/80 before inducing ischemia, then arterioles failed to constrict during reperfusion. Adenosine A3-antagonist BW-A1433 abolished constriction. These findings suggest that arterioles constrict in reperfusion due to adenosine-regulated mast cell degranulation. Vasodilation in response to sodium nitroprusside and acetylcholine was normal in stunned, constricted arterioles. However, the dose-response curves to adenosine were shifted to the left in arterioles constricted by either stunning, compound 48/80, exposure to cold superfusate, or cromolyn compared with control vessels. Depletion of granular components via stunning, compound 48/80, cold superfusate, or inhibition of secretion with cromolyn results in unopposed A1- or A2-mediated vasodilation in response to adenosine, whereas the dilatory effects of adenosine are blunted by simultaneous release of vasoconstrictors from mast cells in control animals. In summary, it was found that mast cell degranulation occurs during reperfusion and leads to constriction of resistance arterioles and altered vascular reactivity to adenosine. Adenosine is released in ischemia and stimulates mast cell degranulation via the A3 receptor located on mast cells during reperfusion.
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PMID:Arteriolar constriction in skeletal muscle during vascular stunning: role of mast cells. 917 81

The relationship between the changes of active oxygen metabolism and blood flow and the formation, progression, and recovery of lesions was examined in the gastric mucosa of rats treated once with compound 48/80, a mast cell degranulator. Gastric mucosal lesions appeared 0.5 hr after compound 48/80 treatment, became worst at 3 hr, and recovered fairly well at 12 hr. Increases in gastric mucosal lipid peroxide content and xanthine oxidase and myeloperoxidase activities and decreases in gastric mucosal vitamin E and hexosamine contents and Se-dependent glutathione peroxidase activity occurred with the formation and progression of gastric mucosal lesions. These changes were attenuated with the recovery of the lesion. Gastric mucosal nonprotein SH content decreased with the formation of gastric mucosal lesions, and this decreased SH content returned to near the original level with lesion progression. No changes in gastric mucosal superoxide dismutase and catalase activities occurred with the formation, progression, and recovery of gastric mucosal lesions. Gastric mucosal blood flow decreased with the formation of gastric mucosal lesions, and this decreased blood flow recovered with lesion progression. Serum serotonin concentration, an index of mast cell degranulation, increased with the formation of gastric mucosal lesions, and this increased serotonin level was attenuated with lesion progression and recovery. Pretreatment with ketotifen, a connective tissue mast cell stabilizer, prevented the formation of gastric mucosal lesions, the increases of gastric mucosal lipid peroxide content, xanthine oxidase and myeloperoxidase activities, and serum serotonin level; and the decreases of gastric mucosal nonprotein SH content, glutathione peroxidase activity, and blood flow found at 0.5 hr after compound 48/80 treatment. These results indicate that the changes of gastric mucosal active oxygen metabolism and blood flow are closely related to the formation, progression, and recovery of gastric mucosal lesions in rats with a single compound 48/80 treatment. The present results also suggest that this compound 48/80-induced gastric mucosal injury could be a kind of ischemia-reperfusion-induced injury occurring through degranulation of connective tissue mast cells.
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PMID:Relationship between changes of active oxygen metabolism and blood flow and formation, progression, and recovery of lesions is gastric mucosa of rats with a single treatment of compound 48/80, a mast cell degranulator. 920 Oct 88

The objective of this study was to define the role of oxidants and lipid mediators in the leukocyte-endothelial cell adhesion and albumin leakage elicited in rat mesenteric venules by ischemia-reperfusion (I/R). Intravital fluorescence microscopy was used to monitor leukocyte adherence and emigration, platelet-leukocyte aggregation, mast cell degranulation, and albumin leakage after release of a 20-min arterial occlusion. I/R elicited large increases in leukocyte-endothelial cell adhesion and albumin leakage. These responses were significantly attenuated in venules treated with either superoxide dismutase, oxypurinol (an inhibitor of xanthine oxidase), lodoxamide (a mast cell stabilizer), WEB-2086 (a platelet-activating factor antagonist), or SC-41930 (a leukotriene B4-receptor antagonist) but not by U-74006F (an inhibitor of lipid peroxidation). Platelet-leukocyte aggregates and mast cell degranulation induced by I/R were also attenuated by administration of either superoxide dismutase or lodoxamide. These results support the hypothesis that oxidants produced, in part, by xanthine oxidase promote the formation (by mast cells and endothelial cells) of platelet-activating factor and leukotriene B4, which recruit and activate leukocytes in postischemic venules. The adherent and emigrated leukocytes then mediate the increased albumin extravasation observed in the postcapillary venules.
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PMID:Ischemia/reperfusion-induced microvascular dysfunction: role of oxidants and lipid mediators. 922 76

Our study was designed to investigate the role of resident cardiac mast cells in the cardioprotective effect of ischemic preconditioning. Ischemic/compound 48/80 preconditioning and treatment with compound 48/80, a mast cell degranulator (1 microg/ml), produced cardioprotective and antiarrhythmic effects in isolated perfused rat heart subjected to 30-min global ischemia followed by 30-min reperfusion. Four episodes of ischemic/compound 48/80 preconditioning and compound 48/80 treatment markedly reduced the release of lactate dehydrogenase (LDH) and creatine kinase (CK) in coronary perfusate and the incidence of ventricular premature beats (VPBs) and ventricular tachycardia or fibrillation (VT/VF) during the reperfusion phase. The release of mast cell peroxidase (MPO), a marker of mast cell degranulation in coronary perfusate, increased immediately after ischemic and compound 48/80 preconditioning. The cardioprotective and antiarrhythmic effect of ischemic/compound 48/80 preconditioning was lost within 60 min. It is proposed that the cardioprotective effect of ischemic preconditioning, which lasts for 60 min in isolated rat heart, may be ascribed to degranulation of resident cardiac mast cells.
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PMID:Resident cardiac mast cells and the cardioprotective effect of ischemic preconditioning in isolated rat heart. 926 40

The objective of this study was to investigate the significance of mast cell-induced reactions in the mucosal functional and morphological alterations induced by 30 min segmental ischemia and 120 min reperfusion in anesthetized dogs. The rates of changes in permeability of the mucosa to sodium fluorescein (NaFL) in the plasma-to-lumen and lumen-to-plasma directions were studied, the local hemodynamics, intramucosal pH (pHi) alterations, mast cell number and degranulation, and degree of tissue injury were determined. The effects of pretreatments with cromolyn (a peritoneal-type mast cell stabilizer), quercetin (a mucosal-type mast cell stabilizer), and dexamethasone (an aspecific membrane stabilizer and mast cell depleter) were evaluated. We found that ischemia-reperfusion induced significant tissue injury, elevated the segmental vascular resistance, and decreased pHi. The plasma-to-lumen clearance of NaFL increased significantly during ischemia and reperfusion. Cromolyn and quercetin pretreatments significantly inhibited the permeability changes, but did not influence the pHi and morphological alterations induced by ischemia-reperfusion. Dexamethasone pretreatment did not influence the number of mast cells, but the degree of mast cell degranulation and fluorescein leakage decreased. We conclude that intestinal mast cells and mast cell-induced reactions contribute to the mucosal permeability alterations during reperfusion, but play only a minor role in ischemia-reperfusion-induced structural injury.
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PMID:The role of mast cells in mucosal permeability changes during ischemia-reperfusion injury of the small intestine. 932 30

Relaxin was previously shown to cause coronary vasodilation and to inhibit mast cell activation through a stimulation of endogenous nitric oxide production. This suggests that relaxin may have beneficial effects on ischemia-reperfusion-induced myocardial injury, which is triggered by endothelial damage and impaired nitric oxide generation. In this study, we tested the effect of relaxin on isolated and perfused guinea pig hearts subjected to ischemia and reperfusion. Ischemia was induced by ligature of the left anterior descending coronary artery; removal of the ligature induced reperfusion. Relaxin, at the concentration of 30 ng/ml of perfusion fluid, causes: a significant increase in coronary flow and in nitric oxide generation; a significant decrease in malonyldialdehyde production and in calcium overload, both markers of myocardial injury; an inhibition of mast cell granule exocytosis and histamine release, which are known to contribute to myocardial damage; a reduction of ultrastructural abnormalities of myocardial cells; an improvement of heart contractility. The beneficial effects of relaxin were blunted by the NO synthase inhibitor L-NMMA. The current study provides first experimental evidence that relaxin has a powerful protective effect on the heart undergoing ischemia and reperfusion acting through a nitric oxide-driven mechanism.
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PMID:Relaxin counteracts myocardial damage induced by ischemia-reperfusion in isolated guinea pig hearts: evidence for an involvement of nitric oxide. 934 98

The objective of this study was to investigate the role of intestinal mast cells in mucosal functional and morphological alterations induced by 30 min segmental ischemia and 120 min reperfusion in anesthetized dogs. The time course of permeability changes of the mucosa to sodium fluorescein (NaFl) in blood-lumen and lumen-blood directions was studied in two separate series of experiments. Local hemodynamics, intramucosal pH (pHi) alterations, mast cell number and degranulation and the degree of tissue injury were determined. The effects of cromolyn (peritoneal-type mast cell stabilizer), quercetin (mucosal-type mast cell stabilizer), and dexamethasone (aspecific membrane stabilizer and mast cell depleter) pretreatments were evaluated. Ischemia-reperfusion induced significant tissue injury, elevated segmental vascular resistance, and decreased pHi. The blood to lumen clearance of NaFl increased significantly during ischemia and reperfusion. Cromolyn and quercetin pretreatment significantly inhibited permeability changes, but did not influence pHi and morphological alterations induced by ischemia-reperfusion. Dexamethasone pretreatment did not influence the number of mast cells, however, the degree of mast cell degranulation and the degree of mucosal damage decreased. These results demonstrate that mast cells or mast cell-induced reactions contribute to the mucosal permeability alterations and barrier lesions during reperfusion, but play a minor role in reperfusion-induced structural injury.
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PMID:Mucosal permeability changes during intestinal reperfusion injury. The role of mast cells. 940 93

The dual radiolabeled monoclonal antibody technique was used to 1) define the magnitude and kinetics of P-selectin expression in murine small intestine exposed to ischemia-reperfusion (I/R), and 2) determine the factor(s) responsible for initiating this response. Within 10 min after release of a 20-min arterial occlusion, intestinal P-selectin expression increased two- to threefold compared with control values. Peak (4-fold) expression of P-selectin was noted at 5 h after reperfusion, returning to the control value at 24 h. The early (10-30 min) I/R-induced upregulation of P-selectin appears to reflect mobilization of a performed pool of the adhesion molecule, whereas the later (5 h) rise appears to be transcription dependent. The early increase in P-selectin expression was not inhibited by pretreatment with either oxypurinol (inhibits xanthine oxidase), diphenhydramine (H1-receptor antagonist), or MK-571 (leukotriene C4/D4 antagonist), nor was it blunted in transgenic mice expressing three times the normal level of copper-zinc superoxide dismutase or in mast cell-deficient mice. However, significant inhibition was noted after treatment with either MK-886 (5-lipoxygenase inhibitor) or a nitric oxide (NO) donor (diethylenetriamine/NO). These findings indicate that the early I/R-induced increase in intestinal P-selectin expression is mediated by a 5-lipoxygenase-dependent NO-inhibitable mechanism.
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PMID:Modulation of P-selectin expression in the postischemic intestinal microvasculature. 943 58


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