UNIPROT:P15088 - FACTA Search

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostaglandin D2 is a secondary mast cell mediator that causes redness, chemosis, mucous discharge, and eosinophil chemotaxis in the eye. It may play an important role in allergic ocular disease. Although histamine is a key mediator of allergic inflammation, antihistamine therapy provides only symptomatic relief. We added aspirin therapy to the treatment regimen of three patients with vernal conjunctivitis. Aspirin acetylates the enzyme cyclooxygenase, thereby preventing the formation of prostaglandin D2. Within two weeks after initiation of aspirin therapy, we noted dramatic improvement in conjunctival and episcleral redness and resolution of keratitis and limbal infiltration. We recommend a trial of oral aspirin as adjunctive therapy for intractable cases of vernal conjunctivitis.
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PMID:Aspirin therapy in vernal conjunctivitis. 657 38

When administered by inhalation, adenosine 5'-monophosphate (AMP) provokes dose-related bronchoconstriction in asthmatic subjects by a mechanism believed to involve mast cell mediator release. However, little is known of the change in airway responsiveness to AMP after cyclo-oxygenase blockade. The aim of this study was to investigate the effect of the potent cyclo-oxygenase inhibitor, lysine acetylsalicylate (L-ASA) administered by inhalation, on AMP-induced bronchoconstriction in a group of nine asthmatic subjects. The subjects studied attended the laboratory on six separate occasions to receive nebulized L-ASA (solution of 90 mg.ml-1) or matched placebo (glycine solution, 30 mg.ml-1) 15 min prior to bronchoprovocation tests with AMP, histamine and methacholine in a randomized, double-blind order. Changes in airway calibre were followed as forced expiratory volume in one second (FEV1) and agonist responsiveness was expressed as the provocative concentration causing a 20% fall in FEV1 from baseline (PC20). Administration of both L-ASA and glycine solution caused a small but significant acute fall in FEV1 from baseline, which returned to normal within 15 min. When compared to placebo, inhaled L-ASA reduced the airway responsiveness to AMP in all the subjects studied, the geometric mean (range) values for PC20 AMP increasing significantly from 36.3 (7.9-250.5) to 101.8 (27.2-1300) mg.ml-1 after placebo and L-ASA, respectively. Moreover, nebulized L-ASA induced a small but significant reduction in airway responsiveness to histamine, the geometric mean (range) PC20 values for histamine increasing from 2.77 (1.05-5.49) to 4.36 (1.69-11.24) mg.ml-1 after placebo and L-ASA, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhaled lysine acetylsalicylate (L-ASA) attenuates the bronchoconstrictor response to adenosine 5'-monophosphate (AMP) in asthmatic subjects. 758 76

Aspirin therapy for patients with systemic mast cell disease (SMCD) decreases the production of prostaglandin D2, which is thought to be a major mediator of flushing. Paradoxically, in 5 to 10% of patients with SMCD, administration of aspirin causes massive mediator release and an anaphylactoid reaction. We attempted aspirin desensitization in a 34-year-old man with SMCD (confirmed by bone marrow biopsy) who was incapacitated by severe flushing episodes and hypotension. His baseline mediator levels of plasma calcitonin, urinary histamine, and urinary N-methyl-imidazoleacetic acid were abnormal. Pentagastrin stimulation increased the plasma level of calcitonin from 47 pg/mL to 130 pg/mL (normal, less than or equal to 110) at 5 minutes. Oral aspirin desensitization was begun; however, after a cumulative dose of 620 mg, an anaphylactoid reaction ensued in conjunction with hypotension, abdominal cramping, and flushing. Coincidentally, 1 hour after the episode, the plasma calcitonin level increased from 37 pg/mL to 540 pg/mL, and the serum tryptase level increased from 1 ng/mL to 3.9 ng/mL. Six hours after the episode, the urine level of histamine increased from 90 micrograms/g creatinine to 337 micrograms/g creatinine, and the urinary N-methylimidazoleacetic acid increased from 32 mg/24 h to 81 mg/24 h. Hence, the patient had increased basal levels of plasma calcitonin that increased substantially during aspirin desensitization and increased to above the upper limit of normal during pentagastrin stimulation. Human mast cells may be capable of producing calcitonin or causing secretion of calcitonin in response to skeletal changes.
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PMID:Increased plasma calcitonin levels in systemic mast cell disease. 793 97

Sulfasalazine is an effective treatment in some inflammatory diseases that exhibit mast cell (MC) hyperplasia. However, its effect on MC has been incompletely studied. We have established that sulfasalazine inhibits the release of histamine and TNF-alpha from MC. Sulfasalazine and its metabolites, 5-aminosalicylic acid (5-ASA) and to a lesser extent sulfapyridine, inhibited Ag-stimulated histamine release from rat peritoneal MC in a concentration-dependent manner with a 50% inhibitory concentration of 6 x 10(6)M, 8 x 10(-6)M, and 3 x 10(-4)M, respectively. Similar results were observed with sulfapyridine and 5-ASA on Ag-stimulated histamine release of another population of MC, namely rat intestinal mucosal MC, but sulfasalazine was markedly less potent than its metabolites. Interestingly, sulfasalazine and sulfapyridine, but not 5-ASA, inhibited Ag-stimulated TNF-alpha released by MC. Similar results were observed with MC-mediated cytotoxic activity in which sulfasalazine and sulfapyridine, but nor 5-ASA, inhibited MC TNF-alpha-dependent cytotoxicity in a concentration-dependent manner. The addition of sulfasalazine to MC, up to 12 h after the cytotoxic assay (16 h) had started, significantly inhibited cytotoxic activity, suggesting that sulfasalazine inhibited the cytotoxic mediator, TNF-alpha. Indeed, affinity studies demonstrated that sulfasalazine binds TNF-alpha. Furthermore, the inhibition of MC cytotoxicity by sulfasalazine appeared to require new protein synthesis. Pretreatment of MC with sulfasalazine also inhibited the release of TNF-alpha and reduced the levels of TNF-alpha mRNA. Thus, sulfasalazine inhibits MC-mediated, TNF-alpha-dependent cytotoxicity by multiple mechanisms: competitive inhibition of soluble TNF-alpha, reduction of levels of TNF-alpha mRNA, and inhibition of TNF-alpha release.
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PMID:Inhibitory effects of sulfasalazine and its metabolites on histamine release and TNF-alpha production by mast cells. 859 65

It is believed that aspirin (ASA) and other nonsteroidal antiinflammatory drugs elicit dysponea in ASA sensitive asthmatics by blocking the cyclooxygenase. It is unclear whether this bronchospasm is due to shunting of arachidonic acid into the lipooxygenase pathway or removal of cyclooxygenase product which prevent bronchospasm. Diminished tissue concentration of PGE may cause bronchoconstriction. PGE play also modulatory function to mast call decreasing the release of mediators of anaphylaxis. There are some evidences concerning the mast cell degranulation in postaspirin reaction in ASA sensitive asthmatics. The authors investigated the influence of synthetic analogue of PGE1--misoprostol (Cototec, Searle) on the postaspirin bronchoconstriction in seven ASA sensitive asthmatics aged 33-62. Aspirin threshold doses ranged from 10 to 150 mg. Postaspirin bronchoconstriction begun usually within 1-2 hrs after digestion of ASA and 200 micrograms were additionally given 2 h later. Seven days later misoprostol (400 micrograms) was administered together with previously determined dose of ASA. One the other day the bronchodilating effect of misoprostol alone was examined. In all but one patients we observed the protective influence of misoprostol on ASA induced bronchoconstriction. Max. fall in FEV1 in % after ASA in each of the patients was 40, 25, 24, 33, 47 and 54, and after ASA with misoprostol, respectively 10, 9, 4, (+8), 10, (+2) and 45. Misoprostol given together with ASA attenuated aspirin-induced bronchoconstriction reaching statistical significance at 3 and 3.5 h, and also diminished extrapulmonary symptoms. The authors discuss the possible mechanism of protective influence of misoprostol.
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PMID:[The influence of misoprostol on post-aspirin bronchoconstriction in patients with aspirin sensitive asthma]. 862 Jan 77

A prospective, randomized, double-blind study was performed in 62 patients (ASA Classes I and II) treated with either 0.15 or 0.25 mg/kg cisatracurium or 0.15 mg/kg vecuronium administered as a rapid bolus. We wished to determine whether the muscle relaxants caused cutaneous, systemic, or chemical evidence of histamine release. Six minutes after induction of anesthesia with thiopental, patients received one of the muscle relaxants over 5 s. Plasma histamine levels were measured by radioimmunoassay after thiopental administration and 3 and 5 min after the administration of the relaxant. Additionally, plasma was assayed for tryptase, a marker of mast cell release. Cutaneous manifestations to both thiopental and the muscle relaxant were graded by an independent observer. Arterial blood pressure and heart rate were measured every minute. Although systolic and diastolic blood pressure decreased and heart rate increased significantly after thiopental administration (P < 0.0001), there were no further hemodynamic changes after either cisatracurium or vecuronium. One patient who received 0.25 mg/kg cisatracurium exhibited a slight elevation in plasma histamine level 5 min after hemodynamic changes. Cutaneous signs of histamine release were noted in five patients after thiopental administration (flush in four, erythema in one), but no further cutaneous reactions were observed after administration of either cisatracurium or vecuronium. We conclude that cisatracurium and vecuronium do not cause systemic or cutaneous histamine release. Tryptase levels showed no evidence of mast cell degranulation.
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PMID:The lack of histamine release with cisatracurium: a double-blind comparison with vecuronium. 905 14

Increased numbers of eosinophils and mast cells in the bronchial mucosa are characteristic features in subjects with aspirin-sensitive asthma. Interleukin-5 (IL-5) and granulocyte-macrophage colony-stimulating factor (GM-CSF) are involved in the activation, maturation, and perpetuation of survival of eosinophils. Immunohistochemical techniques were therefore used to study the expression of IL-5 and GM-CSF on frozen bronchial biopsies from 13 aspirin-sensitive asthmatic (ASA) and 8 non-ASA (NASA) subjects. Aspirin sensitivity was diagnosed by lysine-aspirin inhalation provocation. ASA airways demonstrated a significant 2-fold increase in the total number of submucosal inflammatory cells expressing IL-5 (p = 0.03) and approximate 4- and 2-fold increases in the numbers of mast cells expressing IL-5 and GM-CSF (p = 0.02 and p = 0.04, respectively). There was also a 4-fold increase in the number of eosinophils expressing IL-5 (p = 0.004). These results suggest a central role for the mast cell and eosinophil in regulation of the inflammatory cell infiltrate of ASA airways by secretion of the hemopoietic cytokines IL-5 and GM-CSF.
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PMID:Expression of interleukin-5 and granulocyte-macrophage colony-stimulating factor in aspirin-sensitive and non-aspirin-sensitive asthmatic airways. 937 49

The relationship of aspirin sensitivity to urticaria is complex. Aspirin sensitivity can cause acute urticaria in some individuals, aggravate pre-existing chronic urticaria in others or, rarely, act as a cofactor with food or exercise to provoke anaphylaxis. Individuals who react with urticaria appear to come from a different population to those who react with asthma, although there is some overlap. Aspirin-sensitive chronic urticaria patients may also react adversely to some food additives. The pharmacological mechanisms of aspirin-sensitive urticaria are not fully understood but probably involve diversion of arachidonic acid metabolism from prostaglandin to cysteinyl leukotriene formation leading to direct effects on blood vessels and delayed mast cell degranulation with release of histamine. Cross-reactivity amongst all nonsteroidal drugs is common in aspirin-aggravated chronic urticaria but appears not to occur with selective cyclo-oxygenase 2 inhibitors.
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PMID:Aspirin sensitivity and urticaria. 1265 94

The underlying respiratory disease is activated by unknown mechanism and results in an intense infiltration of mast cells and eosinophils into the entire respiratory mucosa. These cells synthesize leukotrienes (LTs) at a very high rate and mast cells also release histamine and tryptase and synthesize PGD(2) a vasodilator and bronchoconstrictor. Furthermore, AERD patients under synthesize from arachidonic acid (AA) a peculiar product called lipoxins, which opposes inflammation generated by leukotrienes. Finally, cysLT1 receptors are over expressed and highly responsive to LTE(4), further augmenting the underlying inflammatory disease. This inflammatory condition is partly inhibited by synthesis of PGE(2) through COX-1. PGE(2) partially inhibits 5-lipogygenase conversion of AA to LTA(4) and blocks release of histamine and tryptase from mast cells. When COX-l is inhibited by ASA or NSAIDs, PGE(2) synthesis stops and an enormous release of histamine and synthesis of LTs occurs. The upper respiratory reaction is mediated by both histamine and LTs but the bronchospastic reaction is mediated by LTs. The systemic effects of flush, gastric pain and hives are mediated by histamine. Aspirin desensitization can not be explained by disappearance of LT synthesis since urine LTE(4) levels are still elevated at acute ASA desensitization. However, mast cell products such as histamine, tryptase and PGD(2) are no longer released or synthesized at acute desensitization. It is more likely that a diminution in number or function of cysLT receptors accounts for the diminished inflammatory response found in ASA desensitization.
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PMID:Pathogenesis of aspirin-exacerbated respiratory disease. 1266 97

Aspirin-induced asthma (AIA) is a distinct clinical entity characterised by hypersensitivity to aspirin and other non-steroidal anti-inflammatory drugs (NSAIDs) typically occurring in the form of asthma and severe rhinosinusitis. Its prevalence is about 10%, but AIA probably is underdiagnosed. The diagnosis can only be established with certainty by challenge tests, using increasing doses of aspirin. The crucial cell in AIA is the eosinophil, while the role of mast cell is more elusive. At the biochemical level, AIA is distinguished by profound underlying arachidonic acid disturbances. An overproduction of leukotrienes was observed in patients with aspirin hypersensitivity at baseline and following aspirin challenge. In some patients altered prostaglandin release following aspirin was encountered. The inhibition of COX-1, but not COX-2, was shown to precipitate post-challenge symptoms precipitated by aspirin. The new insights into eicosanoid molecular biology and genetics have recently emerged. The patients with aspirin-sensitive asthma require often prolonged oral, inhaled and nasal corticotherapy. Antileukotrienes also can be used. Aspirin and NSAIDs should be avoided. Nevertheless, highly specific COX-2 inhibitors are well tolerated. Aspirin desensitisation, followed by daily aspirin treatment, is a valuable therapeutic option.
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PMID:[Asthma with hypersensitivity to aspirin]. 1452 72

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