Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sixteen patients with allergic rhinitis were recruited into a double-blind crossover protocol studying the immediate effect of nedocromil sodium (NS) on the pattern of nasal symptoms and secretions after allergen challenge. After pretreatment with placebo or NS, allergen challenge resulted in pruritus, rhinorrhea, nasal congestion, and/or sneezing within 10 minutes in 12 of 16 subjects. Prostaglandin D2 (PGD2), a marker of mast cell degranulation, increased proportionately with symptom scores, remaining above the 95% confidence interval for 120 minutes after both pretreatments. No difference in PGD2 between the NS-treatment and placebo-treatment days was observed. Protein markers extravasated through the vasculature (albumin and IgG) or secreted by mucosal glands (lactoferrin) were assayed. Total protein, albumin, IgG, and lactoferrin all remained greater than 95% confidence interval for 100 minutes after allergen challenge in the placebo-pretreated group and 120 minutes in the NS-pretreated group. Although there appeared to be a trend for lower secretion of PGD2, albumin, and IgG in the NS-treated group, the overall differences did not achieve statistical significance. This protocol revealed that two topical 130 microliter doses of a 1% solution of NS failed to significantly reduce allergen-induced symptoms, PGD2 generation, or secretion of albumin, IgG, or lactoferrin when NS was compared with placebo. The anti-inflammatory and mast cell-stabilizing effects of NS may require more prolonged pretreatment before provocation to be effective.
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PMID:Effects of nedocromil sodium on allergen-induced rhinitis in humans. 131 Oct 8

To study the effect of azelastine on the immediate reaction to nasal allergen challenge, we performed a double blind, placebo-controlled cross-over clinical trial. Thirteen subjects with seasonal allergic rhinitis underwent nasal challenge with antigen 4 hr after a single oral 2 mg dose of azelastine. The response was monitored by counting the number of sneezes and by measuring the levels of histamine, prostaglandin D2, immunoreactive sulphidopeptide leukotrienes, kinis and TAME-esterase activity in recovered nasal lavages. After a single dose of azelastine, there was a significant reduction in sneezing (10 vs 2, P = 0.01) and in the median levels of recovered TAME-esterase activity (63.1 vs 17.5 c.p.m. x 10(-3), P = 0.01), immunoreactive sulphidopeptide leukotrienes (7.5 vs 2.1 ng/ml, P = 0.03) and kinins (1370 vs 251 pg/ml, P = 0.03), with no significant reduction in the median levels of histamine (3.7 vs 1.2 ng/ml, P = 0.2) and prostaglandin D2 (70 vs 70 pg/ml, P = 0.2) compared to placebo (numbers represent total increase over diluent challenge). These results suggest that azelastine does not inhibit mast cell activation but affects the consequences of released histamine, namely sneezing, increased vascular permeability and the generation of kinins. The results further suggest that other cells, in addition to mast cells, might be responsible for the generation of leukotrienes during the early allergic response, and that azelastine reduces their ability to generate this mediator or that inhibition of leukotriene release from mast cells occurs at lower drug concentrations.
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PMID:The effect of azelastine on the early allergic response. 134 59

Exercise is a physical cause of allergic reactions, including exercise-induced anaphylaxis (EIAna), exercise-induced urticaria (EIU), exercise-induced asthma (EIA), and exercise-induced rhinitis (EIR). Since its first description in 1979, EIAna has been reported with variable clinical manifestations, with exercise alone, and in combination with food ingestion. Elevated serum histamine levels and cutaneous mast cell degranulation have been noted. Exercise-induced urticaria appears as small, punctate lesions that differ from the classic coalescent type seen with EIAna. Variant forms of EIAna with cholinergic urticarial lesions manifesting systemic collapse and/or respiratory distress have been studied. Exercise-induced urticaria and cold-induced urticaria may cause elevated plasma histamine levels coincident with the onset of pruritus and hives. Theories accounting for EIA include respiratory heat loss, water loss, and mast cell activation. Although some studies have shown increased plasma histamine with EIA, others have not. Recently, bronchoalveolar lavage in atopic subjects with EIA has been evaluated preexercise and postexercise, with no significant differences in histamine or tryptase, suggesting a pathogenesis of EIA independent of the mast cell. Exercise-induced rhinitis, with varying degrees of rhinorrhea, congestion, and sneezing, has been increasingly recognized in athletes who run, cycle, and ski. Cold-air-induced rhinorrhea in laboratory challenges displays a mediator release pattern similar to that produced by allergen-induced nasal challenges. Therapeutically, H1 antihistamines are recommended for EIAna both as pretreatment and acute therapy. H1 antihistamines may be helpful in EIU, but are recommended for EIAna both as pretreatment and acute therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exercise-induced allergies: the role of histamine release. 137 Oct 41

Neural mechanisms contribute to many nasal symptoms and syndromes. Sensory nerve stimulation by irritants, mast cell products, and inflammatory mediators leads to sneezing and other systemic reflexes. Parasympathetic reflexes and sensory axon responses combine to increase nasal blood flow, fill venous sinusoids (which thickens the mucosa and reduces nasal patency), induce plasma extravasation, and stimulate glandular secretion of mucous and serous cell products. These putative roles for nerves and neuropeptides in pathologic events open new therapeutic avenues. Anticholinergic agents, peptide neurotransmitter agonists and antagonists, drugs to reduce or modulate sensory or parasympathetic nerve function, potent topically applied glucocorticosteroids, and agents to inactivate inflammatory, secretory, or vascular cells may be of use. Ablation of sensory nerves by topical application of the chili pepper neurotoxin capsaicin has been successful in reducing the symptoms of refractory vasomotor rhinitis.
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PMID:Sensory, parasympathetic, and sympathetic neural influences in the nasal mucosa. 146 Feb 6

Allergic rhinitis is characterized by a profuse rhinorrhea in addition to paroxysms of sneezing, nasal congestion, and pruritus. To define better the sources of nasal secretion produced during rhinitis, nasal allergen challenges were performed on nine atopic subjects with seasonal rhinitis. A single dose of allergen was sprayed into one side of the nose, and nasal lavages were collected bilaterally for 7 hours. Nasal lavages were assayed for protein (total protein, albumin, lactoferrin, and lysozyme) and mediator (histamine and prostaglandin D2) content. Protein concentrations increased and remained elevated above baseline levels in both ipsilateral and contralateral secretions for up to 3 hours after allergen challenge. The proportion of albumin relative to total protein (the albumin percent) increased on the ipsilateral side, whereas the relative proportions of lactoferrin and lysozyme (the lactoferrin percent and lysozyme percent) increased on the contralateral side. Prostaglandin D2, but not histamine, increased selectively on the ipsilateral side. These data suggest that the ipsilateral protein secretory response is due to allergen-induced mast cell mediator release causing increased vascular permeability, whereas the contralateral protein secretory response is primarily a reflex-induced glandular secretion.
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PMID:The pathophysiology of rhinitis. V. Sources of protein in allergen-induced nasal secretions. 171 3

Differential nasal responsiveness to environmental tobacco smoke (ETS) has been documented in humans and we hypothesized that this reflects differential responsiveness to c-fiber stimulation. We compared the response to intranasal capsaicin in subjects with and without a history of ETS-rhinitis. We challenged 10 ETS-sensitive and 11 ETS-nonsensitive subjects intranasally with 25 mg of lactose powder followed by 25 pg to 25 ng of capsaicin in 25 mg of lactose. Subjects rated nasal symptoms and underwent nasal lavage. In each lavage, the concentrations of albumin (an index of vascular permeability), kinins and histamine (a marker of mast cell activation) were measured. Nasal lavage tosyl-L-arginine methyl ester (TAME)-esterase activity, which can be a reflection of mast cell activation, increased vascular permeability or glandular secretion, was also determined. Subjects with a history of ETS-rhinitis reported more rhinorrhea than subjects without a history of ETS-rhinitis (P less than .01). No significant increase occurred in nasal lavage histamine, albumin or kinins in either subject group. TAME-esterase activity (presumably a reflection of increased glandular secretion) increased greater than 1000 cpm in 12/21 subjects (designated "TAME-producers"), but this was unrelated to ETS-sensitivity. TAME producers showed a dose-dependent increase in TAME-esterase activity, whereas TAME nonproducers showed no change at any capsaicin dose. We conclude that capsaicin causes nasal symptoms and glandular stimulation without evidence of increased vascular permeability or mast cell activation. ETS-rhinorrhea symptoms in humans appear related to c-fiber stimulation. The absence of c-fiber-induced glandular secretion, although not related to ETS-sensitivity, was associated with decreased sneezing and increased symptoms of capsaicin-induced nasal burning.
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PMID:Effect of intranasal capsaicin on symptoms and mediator release. 176 79

Previous studies have shown that nasal allergen provocation leads to dose-dependent increases of inflammatory mediators, e.g. histamine, kinins, LTC4 and PGD2 in nasal lavages. To investigate further the interaction of these mediators, a titration study with intranasal bradykinin (Bk) application (maximal dose 100 nmol/nostril) and consecutive lavage were performed in eight grass-pollen-allergic patients out of season, and five controls. The nasal lavages were analysed for albumin, N-alpha-tosyl-L-arginine methyl ester (TAME) esterase activity, histamine, 9 alpha,11 beta-PGF2, and LTC4. The clinical reactions were measured with a subjective symptom score. A dose-dependent elevation of albumin was found which was significantly higher in patients with allergic and non-allergic rhinitis compared with normal volunteers. TAME-esterase activity also increased in relation to the dosage of Bk given without significant difference between the various groups. No influence on histamine, LTC4 and 9 alpha,11 beta-PGF2, release (PGD2 metabolite) was seen. Short-lasting clinical symptoms like irritation, sneezing, and obstruction were noticed after the two highest Bk dosages (10 and 100 nmol). We conclude that intranasally applied Bk induces a dose-dependent plasma leakage into the nasal cavity, which is significantly higher in patients with seasonal allergic rhinitis out of season compared to normals. Bk does not seem to affect the mast cell since histamine, LTC4 and 9 alpha,11 beta-PGF2 levels do not alter. The ability to induce relevant symptoms of rhinitis provides strong support for the hypothesis that kinins may be important mediators of inflammatory disorders of the upper airways.
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PMID:Nasal challenge studies with bradykinin: influence upon mediator generation. 191 65

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

For the symptomatic treatment of allergic rhinitis the following groups of drugs are available: decongestants (sympathicomimetics), stabilizers of the mast cell membrane (DNCG, nedocromil), corticosteroids (aerosols), antihistamines, ketotifen, anticholinergics. The world wide use (and abuse) of decongestants (sympathicomimetics) is limited by the so-called rhinopathia medicamentosa, when the necessary treatment exceeds 3 or 4 weeks. The antiallergic preparations like sodiumcromoglycat and nedocromil prevent sneezing, rhinorrhea and eye irritations. Their reported effect is "stabilisation" of the mast cell membrane. They have practical no side effects, but the patients compliance is limited by the short, prophylactic effect, necessitating frequent topical applications up to 6 times daily. As the overall symptom scores are only reduced between 30% to 50%, they are not suited for severe cases of allergic rhinitis. Nedocromil should have a significantly better efficiency than DNCG. The development of efficient topical glucocorticosteroid aerosols was a great progress in the treatment of allergic rhinitis. With daily doses of 100 micrograms to 800 micrograms they are very effective against hypersecretion, sneezing, itching and also blocking of the nose. Because of the so-called "first pass" effect after resorption through the nasal mucosa they have minimal general side effects, especially on the balance of the endocrine system. Their rate local side effects on the nasal respiratory mucosa include local irritations, crusting, dryness and seldom nose bleeding.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The symptomatic therapy of allergic rhinitis]. 196 61

Leukotrienes are potent proinflammatory mediators. Our understanding of their role in allergic rhinitis has increased, but further, extensive investigation is required. The sulfidopeptide LTs are generated during the immediate response to antigen provocation and are probably increased during the late inflammatory phase and during seasonal exposure. The source of LTC4 in the early allergic reaction includes the mast cell, but other cell types may also contribute. LTD4 causes nasal congestion and increased blood flow, but not sneezing or significant rhinorrhea. Studies in which LT generation was pharmacologically reduced support a role for these mediators in allergic rhinitis. There is now a need to evaluate the more potent, recently developed, LT antagonists in rhinitis. These agents should help establish the relative importance of LTs to the many other inflammatory mediators that are implicated in the pathogenesis of allergic rhinitis. Such knowledge will broaden and improve our choice of therapeutic modalities for this disease.
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PMID:The role of leukotrienes in allergic rhinitis: a review. 201 50


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