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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lodoxamide tromethamine, an orphan antiallergy drug, inhibits degranulation of mast cells that reside in the myocardium and inhibits xanthine oxidase located in myocytes and predominantly in the
vascular endothelium
. The hypothesis evaluated was that lodoxamide tromethamine would attenuate oxygen free radical damage. Isolated working rat hearts were perfused with Krebs-Henseleit buffer containing 0, 1, 10, 100, or 1,000 mumol/L lodoxamide tromethamine at 37 degrees and 24 degrees C with ischemic times of 22 and 93 minutes, respectively. These ischemic intervals yielded 50% survival and 50% return of function in untreated hearts. Lodoxamide treatment alone at the onset of reperfusion was also studied. Performance end points were aortic flow, pressure, and coronary flow. Biochemical analyses included serotonin collected from coronary effluent as a marker of
mast cell
degranulation, uric acid for xanthine oxidase inhibition, myocardial adenosine triphosphate, and carbonyl group concentrations. Performance data demonstrated that lodoxamide was beneficial in a log-linear dose response when given continuously at both temperatures. Percent of preischemic values for untreated and maximal responses at 1,000 mumol/L of lodoxamide were as follows: a mortality of 50% in nontreated hearts versus 0%; aortic flow, 47% to 94% (37 degrees C), 46% to 86% (24 degrees C); cardiac output, 60% to 98% (37 degrees C), 58% to 97% (24 degrees C); adenosine triphosphate, 59% to 90% (37 degrees C), 48% to 65% (24 degrees C). Serotonin was undetectable from any hearts. Uric acid concentrations and carbonyl group content did not change with increasing dose. Lodoxamide demonstrated no benefit when given only during reperfusion, suggesting injury occurred at times other than reperfusion.
...
PMID:Prevention of ischemia-reperfusion injury by the allergy drug lodoxamide tromethamine. 192 38
Human bone marrow-derived mast cells (hBMMCs), differentiated in vitro in suspension culture and under the influence of human peripheral blood mononuclear cells conditioned medium (hCM), were tested for their response to recombinant human interleukin-3 (rhIL-3) and for their behavior in different microenvironments. The hBMMCs were incubated in the presence of rhIL-3 and the changes in their proliferation rate were determined. Recombinant hIL-3 induced a more than sixfold increase in 3H-thymidine uptake into the hBMMC DNA in a dose-dependent manner. Human CM used as a control for proliferation response induced a more than eightfold maximal proliferation rate increase. Rabbit anti-rhIL-3 completely inhibited hBMMC 3H-thymidine uptake induced by rhIL-3 and decreased the hCM-induced proliferation by approximately 50%. These hBMMCs were cocultured with four different mytomicin C-treated cell monolayers and assayed for phenotypic changes. After only 2 days in coculture with either embryonic mouse skin-derived fibroblasts (MESFs) or human skin-derived fibroblasts (HSFs), a marked increase in granule number and density was noted on staining with toluidine blue. Mast cells that initially stained alcian blue+/safranin- at day 0 of coculture became alcian blue+/safranin+ during the coculture period. Human BMMC proteoglycan synthesis shifted from approximately 85% chondroitin sulfate E to approximately 60% heparin within 14 to 19 days of coculture with the MESF monolayer and to approximately 50% heparin within 19 days of coculture with the HSF monolayer. None of the above-mentioned changes were noted in cocultures of hBMMCs with 3T3 cell line fibroblast monolayers or in cocultures with bovine
vascular endothelium
(BVE) cell monolayers. These results demonstrate microenvironmental effects exerted by the MESF and HSF monolayers on IL-3-dependent hBMMCs similar to those reported in the conversion of murine
mast cell
phenotype.
...
PMID:Fibroblasts induce heparin synthesis in chondroitin sulfate E containing human bone marrow-derived mast cells. 211 38
The effect of an additional adjuvant, Bordetella pertussis, on the clinical and histopathologic features of experimental autoimmune uveitis in black-hooded Lister rats was investigated. Disease was induced by a single footpad injection of purified retinal S-antigen in Freund's complete adjuvant. In those animals that did not receive B Pertussis the clinical features were those of a retinal vasculitis with disc edema, periphlebitis, and deep retinal infiltrates. In contrast, animals that received B pertussis developed lesions in the pigment epithelium and choroid. Histopathologic studies disclosed focal photoreceptor necrosis associated with mononuclear cell infiltration in both groups of animals. However, in the group that did not receive B pertussis the disease was predominantly a retinitis associated with perivascular infiltration of retinal vessels, whereas in the group that did receive B pertussis the main feature was a focal choroiditis, with superficial retinal lesions being rarely observed. Retinal photoreceptors were the target tissue in both groups of rats, but the route by which they were damaged was altered from predominantly retinal to choroidal by the addition of Bordetella pertussis as an adjuvant. This change may be ascribed to the ability of B pertussis toxin to sensitize
vascular endothelium
to local
mast cell
products, these cells being plentiful around choroidal vessels but absent in the retinal circulation.
...
PMID:Differential effect of Bordetella pertussis on experimental posterior uveitis in the black-hooded Lister rat. 289 82
We have undertaken detailed cellular and ultrastructural examination of bronchial biopsies and bronchial lavage fluid from allergic asthmatic patients in order to determine the nature and degree of the inflammatory processes in mild allergic asthma. Eight atopic asthmatic patients (mean PC20 histamine, 0.90 mg/ml) and four nonasthmatic control subjects underwent fiberoptic bronchoscopy. All asthmatic subjects were clinically stable for 2 wk prior to bronchoscopy and required either no treatment or inhaled albuterol alone. A single 50-ml bronchial wash was undertaken, followed by endobronchial biopsy of subcarinae. These procedures were repeated in the asthmatic subjects 18 h after bronchial provocation with allergen or methacholine. Subsequently, all subjects underwent bronchial reactivity testing with inhaled histamine. The clinical and physiologic data were not revealed to the pathologist interpreting the specimens. The asthmatic subjects shed a significantly greater number of epithelial cells into the lavage fluid than did the nonasthmatic subjects (7.23 versus 1.48 x 10(4)/ml, p = 0.048). There was a statistically significant inverse correlation between the lavage epithelial cell count and bronchial reactivity (rho = -0.64, p = 0.03). In the asthmatic subjects, but not in the control subjects, there was extensive deposition of collagen beneath the epithelial basement membrane,
mast cell
degranulation, and mucosal infiltration by eosinophils, which exhibited morphologic evidence of activation. Eosinophils, monocytes, and platelets were found in contact with the
vascular endothelium
, with emigration of eosinophils and monocytes in the asthmatic subjects. These changes were found irrespective of bronchial challenge with allergen. We conclude that allergic asthma is accompanied by extensive inflammatory changes in the airways, even in mild clinical and subclinical disease.
...
PMID:Cellular events in the bronchi in mild asthma and after bronchial provocation. 292 80
1 Peptide 401, a potent
mast cell
degranulating factor from bee venom, substantially inhibited the oedema provoked by subplantar injection of carrageenin or intra-articular injection of turpentine in the rat. The ED(50) of 401 was c. 0.1 mg/kg. The anti-inflammatory effect was assessed by measurement of the increased (125)I-albumin content of an injected site in comparison with an uninjected contralateral site.2 Peptide 401 also suppressed the increased vascular permeability due to intradermal injection of various smooth muscle spasmogens (histamine, bradykinin, 5-hydroxytryptamine (5-HT), and prostaglandins).3 Other comparable
mast cell
degranulating agents (48/80 and melittin) showed little evidence of anti-inflammatory activity when tested at comparable dosage on turpentine arthritis and carrageenin oedema.4 The anti-inflammatory effects were not abolished by pretreatment with mepyramine and methysergide, which abolished the increased vascular permeability produced by local injection of 401.5 The anti-inflammatory action of 401 was not affected by regional denervation or pretreatment with phenoxybenzamine, and was reduced but not abolished by adrenalectomy.6 Measurement of skin temperature, fractional extraction of (86)Rb and blood flow in perfused mesentery gave no evidence that the anti-inflammatory action of 401 was due to reduced tissue perfusion.7 It is concluded that 401 may exert its anti-inflammatory action directly by making the
vascular endothelium
anergic to phlogistic stimuli.
...
PMID:Anti-inflammatory property of 401 (MCD-peptide), a peptide from the venom of the bee Apis mellifera (L.). 415 80
The objective of this study was to determine whether an inhibitor of nitric oxide (NO) synthase (NG,NG'-dimethyl-L-arginine; L-DMA) that is produced by
vascular endothelium
elicits the inflammatory responses induced by synthetic analogues of L-arginine such as NG-nitro-L-arginine methyl ester (L-NAME). Leukocyte adherence and emigration, leukocyte-platelet aggregation, and albumin leakage were monitored in rat mesenteric venules exposed to different concentrations of either L-DMA or L-NAME. Increases in leukocyte adherence (7- to 9-fold) and emigration (3- to 5-fold), platelet-leukocyte aggregation,
mast cell
degranulation, and an enhanced albumin leakage (30-50%) were observed within 30 min after exposing the microvascular bed to either inhibitor; however, leukocyte emigration and albumin leakage responded more intensely to L-NAME than to L-DMA. The microvascular alterations and
mast cell
degranulation were attenuated by addition of L-arginine to the superfusate. These results suggest that the L-DMA is capable of eliciting an inflammatory response at concentrations detected in plasma under certain pathological conditions.
...
PMID:Effects of an endogenous inhibitor of nitric oxide synthesis on postcapillary venules. 754 59
Nitric oxide (NO.) plays a central role in the physiology of the gastrointestinal tract and its response to critical illness. Potential sources of NO. in the gut include: intrinsic intestinal tissue (mast cells, epithelium, smooth muscle, neural plexus), resident and/or infiltrating leukocytes (neutrophils, monocytes), reduction of luminal gastric nitrate, and denitrification by commensal anaerobes. The brain and endothelial isoforms of nitric oxide synthase are expressed under resting conditions, whereas inflammatory stimuli are required for the induction of the inducible type. Under resting conditions, mucosal perfusion is regulated by NO. derived from the
vascular endothelium
of the mesenteric bed. During inflammation, excessive NO. production from the inducible synthase may contribute to mucosal hyperemia. Coordination of peristalsis and sphincteric action is mediated by the release of NO., which acts as the principal neurotransmitter of the nonadrenergic, noncholinergic enteric nervous system. Alterations in bowel motility, such as ileus, result from excessive concentrations of NO. generated during endotoxicosis and inflammatory bowel disease. The role of NO. in the regulation of salt and water secretion is poorly understood. Endotoxin-induced inhibition of gastric acid secretion appears to be mediated by the action of NO. on parietal cells. NO. may protect the gastrointestinal mucosa from a variety of stimuli (caustic ingestion, ischemia, ischemia/reperfusion injury, early endotoxic shock) by maintaining mucosal perfusion, inhibiting neutrophil adhesion to mesenteric endothelium, blocking platelet adhesion, and preventing
mast cell
activation. Excessive NO., however, may directly injure the mucosa. Barrier function of the intestinal mucosa is protected by NO. in the early stages of injury, when neutrophil adhesion, ischemia, and
mast cell
activation are relevant. Inhibition of NO. synthesis ameliorates barrier dysfunction during more advanced stages of inflammation, when activation of inducible NOS yields toxic concentrations of NO.. At high concentrations, NO. disrupts the actin cytoskeleton, inhibits ATP formation, dilates cellular tight junctions, and produces a hyperpermeable state. Selective inhibition of the inducible isoform of NOS and maintenance of the constitutive types may be therapeutic.
...
PMID:Nitric oxide in the gut. 758 76
Nitric oxide (NO.) plays a central role in the Physioliology of the gastrointestinal tract and its response to critical illness. Potential sources of NO. in the gut include: intrinsic intestinal tissue (mast cells, epithelium, smooth muscle, neural plexus), resident and/or infiltrating leukocytes (neutrophils, monocytes), reduction of luminal gastric nitrate, and denitrification by commensal anaerobes. The brain and endothelial isoforms of nitric oxide synthase are expressed under resting conditions, whereas inflammatory stimuli are required for the induction of the inducible type. Under resting conditions, mucosal perfusion is regulated by NO. derived from the
vascular endothelium
of the mesenteric bed. During inflammation, excessive NO. production from the inducible synthase may contribute to mucosal hyperemia. Coordination of peristalsis and sphincteric action is mediated by the release of NO., which acts as the principal neurotransmitter of the nonadrenergic, noncholinergic enteric nervous system. Alterations in bowel motility, such as ileus, result from excessive concentrations of NO. generated during endotoxicosis and inflammatory bowel disease. The role of NO. in the regulation of salt and water secretion is poorly understood. Endotoxin-induced inhibition of gastric acid secretion appears to be mediated by the action of NO. on parietal cells. NO. may protect the gastrointestinal mucosa from a variety of stimuli (caustic ingestion, ischemia, ischemia/reperfusion injury, early endotoxic shock) by maintaining mucosal perfusion, inhibiting neutrophil adhesion to mesenteric endothelium, blocking platelet adhesion, and preventing
mast cell
activation. Excessive NO., however, may directly injure the mucosa. Barrier function of the intestinal mucosa is protected by NO. in the early stages of injury, when neutrophil adhesion, ischemia, and
mast cell
activation are relevant. Inhibition of NO. synthesis ameliorates barrier dysfunction during more advanced stages of inflammation, when activation of inducible NOS yields toxic concentrations of NO.. At high concentrations, NO. disrupts the actin cytoskeleton, inhibits ATP formation, dilates cellular tight junctions, and produces a hyperpermeable state. Selective inhibition of the inducible isoform of NOS and maintenance of the constitutive types may be therapeutic.
...
PMID:Nitric oxide in the gut. 770 93
Formoterol is an innovative, highly potent, beta 2-adrenoceptor-selective agonist combining the clinical advantages of rapid onset of action with a duration of action in excess of 12 h. In vitro, formoterol is a potent airway smooth muscle relaxant with high efficacy, and very high affinity and selectivity for the beta 2-adrenoceptor. Formoterol appears to be retained in airway smooth muscle for extended periods since its relaxant effect on human airway smooth muscle is resistant to repeated washing and formoterol displays 'reassertion' of relaxation after washout of a beta-adrenoceptor antagonist. A model based on the diffusion microkinetics of formoterol into the plasmalemma lipid bilayer is proposed as a basis for these properties. In addition to the release of pro-inflammatory mediators from cells such as the
mast cell
, several other disease processes probably occur in asthma. Leukocytes, notably eosinophils, adhere to the
vascular endothelium
and emigrate into airway tissues, which may be damaged by these cells if they are activated to release mediators or their granular contents. Plasma and its component proteins are extravasated from the bronchial microcirculation. Formoterol has been demonstrated to potently inhibit these cells and processes in experimental test systems. Continuing clinical research involving histological examination of tissue reactions may allow a more complete determination of the effects of formoterol on inflammatory processes in humans and the clinical relevance of any such effects.
...
PMID:Formoterol: pharmacology, molecular basis of agonism, and mechanism of long duration of a highly potent and selective beta 2-adrenoceptor agonist bronchodilator. 809 96
Late phase IgE-mediated reactions (LPR) likely play a major role in the pathogenesis of chronic allergic diseases. Although a number of cellular and humoral alterations in LPR sites have been described recently, the pathogenesis of the LPR is still unclear. LPR follow IgE-mediated but not opiate-induced mast-cell activation suggesting different patterns of
mast cell
mediator release and/or additional effects of the antigen-IgE interaction. Granulocyte accumulation in developing LPR is accompanied by altered expression of adhesion molecules on local
vascular endothelium
. Lymphocytes and the cytokines they produce play an important role in developing and perpetuating LPR. These findings point to the likely complex pathogenesis of LPR with implications for the therapy of allergic diseases.
...
PMID:The late-phase reaction: role of IgE, its receptor and cytokines. 829 29
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