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)

Allergen inhalation causes airway inflammation and an increase in histamine airway responsiveness. We have used cell counts in sputum induced by hypertonic saline aerosol to assess airway inflammation before and 32 h after asthmatic responses to allergen. Twelve asthmatic subjects (mean age, 27.4 yr; range, 20-38 yr) had an inhalation test with D. farinae, ragweed pollen, or cat extract. All of them developed an early response with a fall in FEV1, of 24.8% (SD, 6.3%); nine of 12 had a definite late response (fall in FEV1 greater than or equal to 15%), and 10 of 12 had an increase in airway responsiveness to histamine at 32 h (PC20 reduced by greater than twofold). Sputum was induced by hypertonic saline after the histamine test, before and 32 h after the allergen challenge, at the same time of day. The quality of the sample was scored according to visual inspection and inverted microscopy and by salivary contamination. Plugs arising from the lower respiratory tract were selected for further evaluation. Differential cell counts of eosinophils (Eo) and metachromatic cells (MCC) (mast cell and basophils) were obtained from direct smears, blind to the clinical procedures. The mean fall in FEV1 after hypertonic saline was 6.4% (range, zero to 28%). The sputum samples were adequate in 79.5% of attempts. Eo and MCC increased significantly from 3.8 (4.4) to 18.2 (22.8)% (p = 0.01) and from 0.05 (0.17) to 0.25 (0.76)% (p = 0.04), respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in the cellular profile of induced sputum after allergen-induced asthmatic responses. 159 89

1. To test the hypothesis that the in vivo inhibition of angiotensin converting enzyme in a patient who presents atopy, results in a significant increase in cutaneous bradykinin and prostaglandin production, the effect of enalapril on the cutaneous hypersensitivity reaction was examined in 10 atopic volunteers. 2. A crossover study design was used and volunteers were randomly allocated to treatment with either enalapril (10 mg) alone, or in combination with indomethacin (75 mg), with and without ketotifen (1 mg). Drugs were administered twice daily for 2 days. 3. Allergen (Southern Grass Mix) was administered intradermally 2 h after last drug dosage and the surface areas of the immediate wheal-and-flare-reactions were measured 15 min later. The late phase of the cutaneous response was evaluated 6 h later by determining skinfold thickness and surface area. 4. Enalapril alone had no effect on any of the parameters measured. 5. The cutaneous hypersensitivity reaction was significantly reduced with regard to both immediate and late cutaneous responses when the indomethacin and ketotifen combination was added to enalapril therapy. 6. When only indomethacin was added to enalapril pretreatment the flare reaction was significantly reduced, but whealing was unaffected. 7. This study presents further evidence that mast cell mediators other than prostaglandins are involved in the cutaneous hypersensitivity reaction. Furthermore, that endogenous bradykinin production after enalapril pretreatment either never reaches the supraphysiological concentrations used in previous experiments, or that bradykinin is rapidly and effectively broken down to inactive peptides by other carboxypeptidase enzymes.
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PMID:Effect of enalapril on allergen-induced cutaneous hypersensitivity reaction. 176 63

Various cells are associated with inflammatory events characteristic of atopic allergy and asthma. As well as T cells and eosinophils, mast cells, basophils, mononuclear phagocytes and platelets have all to be considered particularly as their mediators have potential for contributing directly to the features of bronchial asthma. Nevertheless, mast cell/T lymphocyte/eosinophil interactions may be of particular significance. For instance, the acute symptoms of allergy and asthma such as sneezing, bronchospasm and hives are believed to be largely the result of mediator release from mast cells whereas chronic symptoms (the result of allergic inflammation) can be explained on the basis of eosinophil-mediated tissue damage. Allergen is recognized directly by T cells. Specialized T cell subsets, possibly the Th2 equivalent, predominate in allergy and elaborate IL-4 (an essential co-factor for IgE production) and IL-5 which brings about terminal differentiation and activation of the eosinophil. Basic proteins derived from the crystalloid granule together with PAF and leukotrienes produce chronic wheeze, bronchial irritability, and might also be involved in permanent nasal blockage in chronic rhinitis. This general hypothesis is continually being tested. It is clearly important to identify precise molecular targets in allergy and asthma in order to construct therapeutic strategies.
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PMID:T lymphocytes and their products in atopic allergy and asthma. 193 73

While most asthma occurs in association with atopy, the relationship of this to clinical expression of the disease is not clearly understood. Allergen provocation causes an immediate bronchoconstriction (early asthmatic reaction) due to the release of mast-cell-derived histamine, prostaglandin D2 and leukotriene C4. The late reaction and attendent increase in bronchial responsiveness are associated with eosinophil influx, activation and mediator secretion, resulting in mucosal swelling in addition to smooth muscle contraction. Endobronchial biopsy and broncho-alveolar lavage have provided compelling evidence that both mast cells and eosinophils contribute to disordered airway function in 'clinical' asthma and that these cells are under the control of T lymphocytes. Topical corticosteroids which produce beneficial clinical effects probably do so by inhibiting those factors that maintain mast cell and eosinophil populations and their enhanced activation. The most likely contenders for these regulatory functions are the cytokines, particularly interleukin-3, -4 and -5.
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PMID:Allergic inflammation and its pharmacological modulation in asthma. 193 76

The activation of mast cells is generally considered to be an important trigger mechanism in the immediate allergic response. This study focused on the determination of three markers of mast cell activation after an allergen challenge. Nasal allergen challenges were performed in 25 subjects with seasonal allergic rhinitis using three allergen doses increasing in 10-fold steps in a standardised nasal lavage model for the subsequent recovery of the markers of mast cell activation. The levels of histamine and tryptase in the nasal lavage fluid were determined using radioimmunoassays, while the TAME-esterase activity was determined using a radiochemical technique. The nasal symptoms obtained on challenge were assessed using a scoring technique. The allergen challenge resulted in significant increases in the levels of all three markers, tryptase, histamine and TAME-esterase. In the individual measurements after the challenges there was a highly significant correlation between the TAME-esterase levels and the tryptase levels (r = 0.71; P less than 0.001), while the generation of histamine and tryptase was not significantly correlated. When comparing the cumulative generation of the three markers, significant correlations were found between all three. Allergen challenges in six non-allergic controls using the same technique did not result in any increase in tryptase levels. The findings suggest that the determination of tryptase in nasal lavage fluid may be a valuable indicator of mast cell activation in the upper airways.
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PMID:Tryptase in nasal lavage fluid after local allergen challenge. Relationship to histamine levels and TAME-esterase activity. 195 95

1. Systemic capsaicin treatment of the pig depletes the content of sensory neuropeptides (CGRP and tachykinins) in the airways mucosa and skin, without affecting sympathetic and parasympathetic nerves containing NPY and VIP, or the presence and appearance of inflammatory cells including mast cells. Acute capsaicin exposure caused release of sensory neuropeptides and catecholamines, and marked vasodilation in the airways and skin, without signs of plasma protein extravasation or bronchoconstriction. Capsaicin pretreatment effectively desensitizes against local challenges with capsaicin in the airways and skin, as revealed by the absence of vasodilatory responses 2 days later. 2. Cigarette smoke exposure induces marked vasodilatation, lasting for about 5 min in both the upper and lower airways, which seems not to be primarily caused by particulate matter or nicotine in the smoke. Except for a minor capsaicin-sensitive component in the nasal circulation, these responses probably do not involve neural activation, mast cell degranulation or prostaglandin formation. Rather, it is concluded that vapour phase components act on the vessels via unknown mechanisms. 3. Sensitization of pigs with s.c. injections of ascaris antigen was successful, resulting in typical wheal and flare reactions in the skin and bronchoconstriction after local challenge with antigen. The reactivity to ascaris is probably mediated by antibodies of the IgE isotype. 4. Histamine-containing mast cells and sensory neuropeptide-containing nerve fibers show close morphological association around blood vessels in the pig skin. Both alcian blue-positive mast cells and capsaicin-sensitive sensory nerves are present close to the pig airways epithelium. Sensory neuropeptide-containing nerves are also abundant around airways mucosal blood vessels, whereas the bronchial smooth muscle is sparsely innervated. 5. Allergen and histamine injections in the skin caused similar responses consisting of flare and protein extravasation. Allergen challenge in the airways induces marked vasodilatation lasting for 60-90 min in the pig bronchial and nasal circulations. Histamine seems to be important in the early phase (0-20 min) of these responses in the airways, while cyclooxygenase products (possibly PGD2) may be responsible for the longlasting component. A cyclo-oxygenase product is presumably also released from the lung into the circulation after bronchial allergen challenge and thereby induces a delayed, long-lasting nasal vasodilatation. Histamine may be the main bronchoconstrictor agent released in the immediate allergic reaction of the pig. 6. The flare, but not the protein extravasation reaction, to allergen and histamine injections in the skin, was inhibited by capsaicin pretreatment.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Airways vasodilatation in the immediate allergic reaction. Involvement of inflammatory mediators and sensory nerves. 203 38

Human mast cells likely play a significant role in human asthma. In the present study, concentrations of tryptase and histamine in bronchoalveolar lavage fluid (BALF) were used as indicators of pulmonary mast cell activation. BALF was obtained before and after endobronchial allergen challenge and assessed for mediator content and cell composition in 4 subject groups: nonatopic nonasthmatics (Group 1, n = 7), nonatopic asthmatics (Group 2, n = 3), atopic nonasthmatics (Group 3, n = 7), and atopic asthmatics (Group 4, n = 7). Before challenge, histamine concentrations were not different between the 4 groups, whereas tryptase concentrations were significantly greater in the atopic asthmatics than in each of the other groups (p less than 0.04). Allergen challenge in atopic asthmatics resulted in significant increases above baseline in mean +/- SD histamine (0.7 +/- 7.1 to 2.8 +/- 2.0 ng/ml) and tryptase (2.0 +/- 1.7 to 10.1 +/- 8.2 ng/ml) concentrations in BALF (p less than 0.03). Atopic nonasthmatics also had increases above baseline in histamine (0.2 +/- 0.2 to 1.2 +/- 1.4 ng/ml) and tryptase (0.5 +/- 0.4 to 1.4 +/- 1.03 ng/ml) concentrations after allergen challenge (p less than 0.05). Though the histamine values were not significantly different between atopic nonasthmatics and atopic asthmatics after allergen challenge, tryptase concentrations were markedly higher in the atopic asthmatic group. The numbers, as well as the predominance of the T mast cell type in atopic asthmatics and nonasthmatics, were no different from controls. In nonatopic subjects, regardless of asthmatic state, histamine or tryptase concentrations were not altered by allergen challenge.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of pulmonary mast cells by bronchoalveolar allergen challenge. In vivo release of histamine and tryptase in atopic subjects with and without asthma. 246 67

Although theoretical considerations and experimental evidence implicate the mast cells in the pathophysiology of the immediate type hypersensitivity reaction, the evidence of their active participation in human allergic disease is still fragmentary. We have therefore sought evidence of mast cell activation in allergic mucosal disease using strictly seasonal allergic rhinitis as a model. Twelve patients with birch pollen-induced hay fever were examined before and well into the birch pollen season. Allergen exposure was monitored by pollen counts and the degree of symptoms registered daily. Small surgical biopsies and mucosal imprints were obtained from each patient before and during the season. Mast cells were analysed by light and electron microscopy and mucosal histamine was measured using a sensitive HPLC assay. We found a reduction in the number of mast cells in the nasal mucosa during pollen exposure (p less than 0.05) but no significant reduction of the histamine content. There was a correlation between the nasal mucosal mast cell density and histamine content before the pollen season (r = 0.76; p less than 0.01), but no such correlation was found during the period of pollen exposure (r = 0.19; n.s.). This finding points to secretory activity by the mast cells during the pollen season and to the appearance of a non-mast cell pool of tissue histamine. Evidence for a secretory activity of the mast cells during the pollen season was also confirmed by electron microscopy. In addition, we found a strong correlation (r = 0.77; p less than 0.01) between the histamine content of the nasal mucosa during the pollen season and the degree of nasal symptoms. The number of epithelium-associated mast cells found on mucosal imprints prior to the pollen season showed a strong correlation with the symptoms experienced later during the period of pollen exposure (r = 0.83; p less than 0.01). Taken together these observations indicate that the mast cell has a pathogenetic role in continuous allergic airway disease and re-emphasizes the role of histamine in the induction of the symptoms of allergic rhinitis.
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PMID:Secretory activity of nasal mucosal mast cells and histamine release in hay fever. 246 3

Allergen exposure may precipitate acute bronchoconstriction and increase bronchial reactivity. We have investigated whether passive sensitisation of human airway per se or short-term exposure to mediators released by specific antigen exposure produces an alteration in in vitro smooth muscle sensitivity to histamine. Exposure to allergen produced smooth muscle contraction in sensitised tissue, but subsequent smooth muscle sensitivity to histamine was not altered. We conclude that neither passive sensitisation nor short-term exposure to mast cell mediators alters in vitro smooth muscle sensitivity to histamine.
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PMID:The effect of passive sensitisation of human bronchial smooth muscle on in vitro sensitivity to histamine. 252 Apr 89

The inhibitory effects of topical glucocorticosteroid treatment on the immediate dermal allergic reaction were studied in 10 patients in a double, randomized, placebo-controlled fashion. The aim was to study whether a prolongation of the treatment time would enhance the inhibitory effect beyond the 30-40% reduction previously reported after 1 week of treatment, and whether any changes in skin reactivity were accompanied by changes in the level of mast cells or histamine at the challenge site. Allergen and histamine skin-prick tests were performed on both forearms before the start of the study and after 2 and 4 weeks of treatment with placebo cream on one forearm and with 0.05% clobetasol-17-propionate cream on the other. Punch biopsies from the skin treated actively and with placebo were taken after 4 weeks in eight of the patients. The specimens were used for the light-microscopic evaluation of mast cell density and for the measurement of histamine and protein content. After 4 weeks of treatment we found a reduction in the allergen-induced weal (72%; P less than 0.001) and flare (62%; P less than 0.05) response. There was also a minor reduction in the histamine-induced weal (38%; P less than 0.05) but not the flare response, suggesting that the glucocorticoid treatment induced a reduced mediator release at allergen challenge. This could be partially explained by the finding of a reduction in the number of detectable skin mast cells (85%; from 0.78 to 0.11 mast cells per unit area) and in the histamine content of the skin as related to the tissue wet weight (36%; P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prolonged treatment with topical glucocorticoids results in an inhibition of the allergen-induced weal-and-flare response and a reduction in skin mast cell numbers and histamine content. 264 13


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