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)

Activated mast cells are present in human coronary atheromas, as well as in the adventitia of patients with variant angina, and may play an important role in plaque rupture and coronary vasomotion. To assess whether or not activation of mast cells is a primary event, we measured serum levels of tryptase, a specific marker of mast cell activation, in 8 patients with unstable angina during a spontaneous ischemic episode (Group 1) and in 5 patients with variant angina (Group 2) during ergonovine-induced coronary spasm. Blood samples were collected as soon as possible after the onset of pain and ECG changes (0 min), and after 5, 15 and 60 min. Tryptase levels in Group 1 were 0.13 U/l (range 0.017-0.44) at the onset of pain and significantly raised to 0.75 U/l (range 0.05-2.49) at 5 min, decreasing to 0.076 U/l (range 0.018-0.16) at 15 min and to 0.085 U/l (range 0.01-0.25) at 60 min (p = 0.035). Conversely, tryptase levels in Group 2 were 0.09 U/l (range 0.07-0.13) at 0 min, 0.11 U/l (range 0.07-0.22) at 5 min, 0.10 U/l (range 0.07-0.18) at 15 min, 0.11 U/l (range 0.07-0.17) at 60 min (NS). In conclusion, tryptase levels raise during spontaneous ischemic episodes in unstable angina, but not after ergonovine-provoked ischemia in variant angina, suggesting that a primary, yet unknown stimulus, may activate mast cells during some ischemic episodes in unstable angina.
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PMID:[Tryptase levels are elevated during spontaneous ischemic episodes in unstable angina but not after the ergonovine test in variant angina]. 955 75

Myocardial injury caused by ischemia and reperfusion comes from multiple pathogenic events, including endothelial damage, neutrophil extravasation into tissue, platelet and mast cell activation, and peroxidation of cell membrane lipids, which are followed by myocardial cell alterations resulting eventually in cell necrosis. The current study was designed to test the possible cardioprotective effect of the hormone relaxin, which has been found to cause coronary vessel dilation and to inhibit platelet and mast cell activation. Ischemia (for 30 minutes) was induced in rat hearts in vivo by ligature of the left anterior descending coronary artery; reperfusion (for 60 minutes or less if the rats died before this predetermined time) was induced by removal of the ligature. Relaxin (100 ng) was given intravenously 30 minutes before ischemia. The results obtained showed that relaxin strongly reduces 1) the extension of the myocardial areas affected by ischemia-reperfusion-induced damage, 2) ventricular arrhythmias, 3) mortality, 4) myocardial neutrophil number, 5) myeloperoxidase activity, a marker of neutrophil accumulation, 6) production of malonyldialdehyde, an end product of lipid peroxidation, 7) mast cell granule release, 8) calcium overload, and 9) morphological signs of myocardial cell injury. This study shows that relaxin can be regarded as an agent with a marked cardioprotective action against ischemia-reperfusion-induced myocardial injury.
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PMID:Relaxin protects against myocardial injury caused by ischemia and reperfusion in rat heart. 958 5

This study was designed to investigate the effect of disodium cromoglycate (DSCG), a mast cell stabilizer, on cardioprotective effect of ischemic preconditioning. Isolated rat heart was subjected to 30 min of global ischemia followed by 30 min of reperfusion. Ischemic preconditioning was provided by four episodes of 5-min global ischemia followed by 5 min of reperfusion before sustained ischemia. Ischemic preconditioning and DSCG (10 and 100 microM) treatment markedly decreased the release of lactate dehydrogenase (LDH) and creatine kinase (CK) in coronary effluent and percentage incidence of ventricular premature beats (VPBs) and ventricular tachycardia/fibrillation (VT/VF) during reperfusion. Ischemic preconditioning and DSCG treatment also significantly reduced ischemia/reperfusion-induced mast cell peroxidase (MPO) release, a marker of mast cell degranulation. A significant increase in MPO release was observed immediately after ischemic preconditioning, and the release was found to be inhibited in hearts perfused with DSCG (10 and 100 microM) during ischemic preconditioning. DSCG administered during ischemic preconditioning (DSCG in ischemic preconditioning) attenuated the cardioprotective and antiarrhythmic effects of ischemic preconditioning. DSCG in ischemic preconditioning produced no marked effect on ischemia/reperfusion-induced MPO release. These findings tentatively suggest that DSCG administration during ischemic preconditioning abolishes its cardioprotective effect, perhaps by stabilizing resident cardiac mast cells.
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PMID:Cardiac mast cell stabilization and cardioprotective effect of ischemic preconditioning in isolated rat heart. 959 79

The objective of this study was to directly study a role for mast cells in ischemia-reperfusion (I/R)-induced mucosal and microvascular dysfunction. I/R was induced in the intestine and skeletal muscle (gastrocnemius and cremaster muscle) of wild-type mice and mast cell-deficient mice (W/Wv). Changes in mucosal permeability (blood-to-lumen clearance of 51Cr-EDTA), leukocyte infiltration (myeloperoxidase activity in the intestine and intravital microscopy in the cremaster muscle), and vascular permeability (tissue wet-to-dry weight ratio and FITC-albumin leakage) were measured as indexes of tissue dysfunction. In wild-type animals, intestinal I/R induced a significant increase in mucosal permeability, leukocyte infiltration, and vascular permeability. Mast cell-deficient animals were completely protected from I/R-induced mucosal dysfunction. However, skeletal muscle I/R induced a significant increase in leukocyte infiltration, FITC-albumin leakage, and edema formation to the same degree in both wild-type and mast cell-deficient animals. These data suggest that mast cells may be important mediators of I/R-induced mucosal and microvascular dysfunction in the intestine but not of microvascular dysfunction in skeletal muscle.
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PMID:Postischemic inflammation: a role for mast cells in intestine but not in skeletal muscle. 968 47

It has been shown that hypercholesterolemia (HCh) exaggerates the microvascular dysfunction that is elicited by ischemia and reperfusion (I/R). The objective of this study was to determine whether oxidants contribute to the exaggerated inflammatory responses and enhanced albumin leakage observed in HCh rat mesenteric venules exposed to I/R (10 minutes of ischemia and 30 minutes of reperfusion). Intravital videomicroscopy was used to quantify the number of adherent and emigrated leukocytes, albumin extravasation, platelet-leukocyte aggregation in postcapillary venules, and the degranulation of adjacent mast cells. Oxidation of the fluorochrome dihydrorhodamine 123 (DHR) was used to monitor oxidant production by venular endothelium. I/R was shown to elicit an increased DHR oxidation in venules of both control and HCh rats, with the latter group exhibiting a significantly larger response. Treatment with either oxypurinol or superoxide dismutase largely prevented the leukocyte recruitment, platelet-leukocyte aggregation, mast cell degranulation, and enhanced DHR oxidation elicited by I/R in HCh rats. The enhanced albumin leakage was reduced by superoxide dismutase but not by oxypurinol. These results indicate that HCh amplifies the oxidant stress elicited by I/R and that interventions that blunt the oxidant stress effectively attenuate the leukocyte, platelet, and mast cell activation that result from I/R.
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PMID:Hypercholesterolemia enhances oxidant production in mesenteric venules exposed to Ischemia/Reperfusion. 976 30

The aim of this study was assessment of the role of mast cells in inflammatory processes associated with keratoconus and corneal epithelial-endothelial dystrophy and clinical assessment of Lecrolin, a specially designed dosage form (eye drops) of potassium cromoglycate (intal) used as an antiallergic drug in asthma, rhinitis, etc. Examinations of 43 biopsy specimens of the conjunctiva from patients with keratoconus and epithelial-endothelial corneal dystrophy demonstrated the significance of immune inflammation in the pathogenesis of these diseases. Mast cells are a typical cell element participating in inflammation at all stages. The count of mast cells increases from 2.5 during the acute stage to 8.86 during the chronic stage, which is explained by absence of the leukocytic stage and proteolysis and stabilization of mature labrocyte degranulation associated with it. Reactions of mast cells with lymphocytes and monocytes/macrophages lead to proliferation of fibroblasts and chronic development of collagen formation. Close relationships between microvessels and mast cells promote stable spasms of the vessels, impairing the microcirculatory bed and leading to ischemia of the anterior segment of the eye. In such cases sodium cromolyne drugs (lecrolin) inhibiting histamine release and stabilizing mast cell membranes are recommended.
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PMID:[The role of the mast cells of the conjunctiva in the intercellular interactions in keratoconus and epithelial-endothelial corneal dystrophy]. 986 87

The present study was designed to investigate the role of cardiac mast cells in the cardioprotective effect of norepinephrine-induced preconditioning. Isolated rat heart was subjected to 30 min of global ischemia followed by 30 min of reperfusion. Both ischemic and norepinephrine (100 microM) preconditioning markedly reduced ischemia-reperfusion-induced release of lactate dehydrogenose (LDH) in the coronary effluent and the incidence of ventricular premature beats (VPBs) and ventricular tachycardia/fibrillation (VT/VF) during the reperfusion phase. Ischemic and norepinephrine preconditioning also significantly reduced ischemia-reperfusion-induced release of mast cell peroxidase (MPO), a marker of mast cell degranulation. However, MPO release increased immediately after ischemic or norepinephrine preconditioning. Histological study with ruthenium red (0.005%) staining confirmed cardiac mast cell degranulation in ischemic and norepinephrine preconditioned isolated rat hearts. These findings tentatively suggest that pharmacological preconditioning with norepinephrine produces a cardioprotective and antiarrhythmic effect similar to ischemic preconditioning through degranulation of resident cardiac mast cells.
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PMID:Possible role of cardiac mast cells in norepinephrine-induced myocardial preconditioning. 1039 34

Our study is designed to correlate nitrite concentration, an index of nitric oxide (NO) release with mast cell peroxidase (MPO), a marker of cardiac mast cell degranulation and cardioprotective effect of ischaemic preconditioning in isolated perfused rat heart subjected to 30 min of global ischaemia and 30 min of reperfusion. Ischaemic preconditioning, comprised of four episodes of 5 min global ischaemia and 5 min of reperfusion, markedly reduced the release of lactate dehydrogenase (LDH) and creatine kinase (CK) in coronary effluent and incidence of ventricular premature beats (VPBs) and ventricular tachycardia and fibrillation (VT/VF) during reperfusion phase. Ischaemia-reperfusion induced release of MPO was markedly reduced in ischaemic preconditioned hearts. Increased release of nitrite was noted during reperfusion phase after sustained ischaemia in preconditioned hearts as compared to control hearts. No alterations in the release of nitrite was observed immediately after ischaemic preconditioning. However, ischaemic preconditioning markedly increased the release of MPO prior to global ischaemia. It is proposed that cardioprotective and antiarrhythmic effect of ischaemic preconditioning may be ascribed to degranulation of cardiac mast cells. Depletion of cytotoxic mediators during ischaemic preconditioning and consequent decreased release of these mediators during sustained ischaemia-reperfusion may be associated with preservation of structures in isolated rat heart responsible for NO release.
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PMID:Possible role of cardiac mast cell degranulation and preservation of nitric oxide release in isolated rat heart subjected to ischaemic preconditioning. 1054 45

Endothelin-1 (ET-1) is a potent vasoconstrictor postulated to play a role in hypertension, ischemia-reperfusion, and atherosclerosis. In addition to these contributions, it has been also proposed to induce leukocyte-endothelial cell interactions. The aim of the present study was to assess the mechanisms of action of ET-1 on leukocyte recruitment in vivo. Intravital microscopy of the rat mesenteric postcapillary venules was used. Ten minutes after 1 nM ET-1 superfusion, a significant increase in leukocyte rolling (77.5 +/- 22.6 vs. 20.5 +/- 4.5 cells/min) and adhesion (15.5 +/- 2.9 vs. 3.0 +/- 0.8 cells/100 micrometer) but not emigration was observed. These effects were found not to be mediated by mast cell activation. No platelet-endothelial cell interactions were detected in this in vivo system and furthermore, flow cytometry analysis revealed no increase of P-selectin expression in rat platelets on ET-1 stimulation. Pretreatment of animals with an anti-rat P-selectin monoclonal antibody (mAb) dramatically reduced leukocyte rolling and adhesion by 100 and 94% respectively when compared with control mAb-treated animals. At this dose of ET-1, a very transient decrease in shear rate was detected, arteriolar diameter was significantly reduced but venular diameter remained unchanged. A similar mechanical reduction in blood flow did not induce leukocyte recruitment. Thus this study demonstrates that ET-1 can directly cause significant leukocyte rolling and adhesion adding to its potential pathophysiological role in the development of disease states of the cardiovascular system.
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PMID:Endothelin-1 causes P-selectin-dependent leukocyte rolling and adhesion within rat mesenteric microvessels. 1056 36

The objective of this study was to examine the role of mast cells and their principal product, histamine, in ischemia/reperfusion injury. Cromolyn sodium, diphenhydramine, and cimetidine were administered to ischemic flaps just before reperfusion and evaluated for flap survival, mast cell count, neutrophil count, and myeloperoxidase levels. Epigastric island skin flaps were elevated in 49 rats; they were rendered ischemic by clamping the artery for 10 hours. Thirty minutes before reperfusion, the rats were treated with intraperitoneal saline (n = 11), cimetidine (n = 11), diphenhydramine (n = 11), or cromolyn sodium (n = 10). Flap survival was evaluated at 7 days. Neutrophil counts, mast cell counts, and myeloperoxidase levels were evaluated 12 hours after reperfusion. Flap necrosis in the sham group of animals (n = 6) was 0.0 percent, as expected, whereas the control group (saline-treated animals) had 47.3+/-33.4 percent necrosis. Animals treated with diphenhydramine and cimetidine demonstrated a significant decrease in flap necrosis to 17.7+/-8.8 percent and 19.4+/-14.7 percent, respectively. This protective effect was not seen with cromolyn sodium (44.3+/-35.6 percent). Both neutrophil and mast cell counts were significantly decreased in flaps from antihistamine-treated and sham animals versus both saline- and cromolyn sodium-treated groups. The administration of diphenhydramine and cimetidine before reperfusion can significantly reduce the extent of flap necrosis and the neutrophil and mast cell counts caused by ischemia/reperfusion. This protective effect is not seen with cromolyn sodium. The protective effect of antihistamines on flap necrosis might be related to the decrease in neutrophils and, possibly, mast cells within the flap.
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PMID:Prevention of ischemia-reperfusion injury in a rat skin flap model: the role of mast cells, cromolyn sodium, and histamine receptor blockade. 1112 11


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