Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A humanized murine monoclonal antibody directed to the Fc epsilonR1-binding domain of human IgE (rhuMAb-E25) has been shown to inhibit the binding of IgE to mast cells without provoking mast cell activation. To examine the effects of neutralizing IgE on allergic airway responses, we assessed the effects of 9 wk of treatment with rhuMAb-E25 in a parallel group, randomized, double-blind, placebo-controlled study of 19 allergic asthmatic subjects. We found that treatment with rhuMAb-E25 reduced serum IgE, increased the dose of allergen needed to provoke an early asthmatic response, reduced the mean maximal fall in FEV1 during the early response (30 +/- 10% at baseline to 18.8 +/- 8%, versus 33 +/- 8% at baseline to 34 +/- 4% after placebo; p = 0.01), and reduced the mean maximal fall in FEV1 during the late response (24 +/- 20% at baseline to 9 +/- 10% versus 20 +/- 17% at baseline to 18 +/- 17% after placebo; p = 0.047). We conclude that an anti-IgE monoclonal antibody, which inhibits binding of IgE to its receptor, suppresses the early- and late-phase responses to inhaled allergen in allergic asthmatic subjects. Targeting IgE with rhuMAb-E25 might be a useful treatment for allergic asthma.
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PMID:The effect of an anti-IgE monoclonal antibody on the early- and late-phase responses to allergen inhalation in asthmatic subjects. 919 81

A humanized murine monoclonal antibody directed to the Fc epsilon R1-binding domain of human IgE (rhuMAb-E25) has been shown to inhibit the binding of IgE to mast cells without provoking mast cell activation. To examine the effects of neutralizing IgE on allergic airway responses, we assessed the effects of 9 wk of treatment with rhuMAb-E25 in a parallel group, randomized, double-blind, placebo-controlled study of 19 allergic asthmatic subjects. We found that treatment with rhuMAb-E25 reduced the serum IgE, increased the dose of allergen needed to provoke an early asthmatic response, reduced the mean maximal fall in FEV1 during the early response (30 +/- 10% at baseline to 18.8 +/- 8%, versus 33 +/- 8% at baseline to 34 +/- 4% after placebo; p = 0.01), and reduced the mean maximal fall in FEV1 during the late response (24 +/- 20% at baseline to 9 +/- 10% versus 20 +/- 17% at baseline to 18 +/- 17% after placebo; p = 0.047). We conclude that an anti-IgE monoclonal antibody, which inhibits binding of IgE to its receptor, suppresses the early- and late-phase responses to inhaled allergen in allergic asthmatic subjects. Targeting IgE with rhuMAb-E25 might be a useful treatment for allergic asthma.
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PMID:Effects of anti-IgE in asthmatic subjects. 1019 49

Airway inflammation is found in virtually all individuals with asthma symptoms. The factors contributing to asthma-related airway inflammation are multiple and involve a number of different inflammatory cells and mediators. Allergic responses at the level of the respiratory system are mostly mediated by IgE-dependent mechanisms. After sensitization of a susceptible individual and the synthesis and binding of allergen-specific IgE to target cells, atopic individuals respond immunologically to common, naturally occurring allergens by releasing mast cell-derived mediators. Subsequent allergen exposure in susceptible individuals produces a characteristic cascade of events orchestrated by immune effector cells, most prominently, mast cells, T lymphocytes and eosinophils. A new strategy, neutralizing IgE antibodies, inhibits expression of allergic symptoms by preventing the initial trigger of the allergic reaction, IgE binding to IgE-receptor bearing cells. rhuMAb-E25 is a recombinant humanized monoclonal anti-IgE antibody currently under investigation that has been shown to reduce allergic responses in atopic individuals and to improve symptoms and reduce rescue medication and corticosteroid use in patients with allergic asthma. Thus, the clinical effectiveness of rhuMAb-E25 supports the central role of IgE in allergic reactions and the viability of anti-IgE therapy as a potentially effective treatment option for asthma.
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PMID:Anti-IgE therapy in asthma: rationale and therapeutic potential. 1111 55

IgE-mediated mast cell and basophil activation initiates immediate and late-phase allergic responses, and plays a pivotal role in the pathogenesis of allergic diseases such as bronchial asthma and allergic rhinitis. Thus, the blocking of the binding of IgE to the high affinity receptors for IgE (Fc epsilon RI) on mast cells and basophils may prevent dual responses, and improve allergic symptoms. A recombinant humanized monoclonal antibody (rhuMAb-E25) forms complexes with free IgE, blocks its binding to mast cells and basophils, and inhibits allergen-induced mediator release from both cells and attenuates immediate and late-phase reactions to inhaled allergens. In clinical trials, the therapy with rhuMAb-E25 was effective in patients with atopic asthma and allergic rhinitis and well tolerated. This antibody seems to be promising as a treatment for atopic asthma and allergic rhinitis.
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PMID:[Treatment of allergic diseases with monoclonal anti-IgE antibody]. 1167 48

The incidence of allergic diseases is increasing to epidemic proportions both in the developed and developing world with increasing medical costs and lost productivity. The discovery of immunoglobulin (Ig) E heralded a new era in pathophysiological understanding of allergic disorders. Twenty-five years later, a humanised, non-anaphylactogenic antibody was developed against IgE that could provide a therapeutic alternative to the existing medications. RhuMAb-E25 (omalizumab, Xolair, Genetech, Inc.) is a novel anti-IgE antibody that is directed against the receptor-binding domain of IgE. This binding is specific towards free IgE thereby preventing it from attaching to the mast cell and its subsequent activation. Initial studies demonstrated attenuation of the early and late asthmatic responses when anti-IgE was administered to asthmatic subjects. Later this novel molecule was found to improve symptom scores, rescue medication use, quality of life scores and peak expiratory flows in patients with allergic asthma. Most importantly, omalizumab treatment reduced the corticosteroid use in asthmatic individuals. In patients with seasonal allergic rhinitis, there was a significant reduction in the nasal and ocular symptoms as well as the use of rescue medications. Omalizumab also demonstrated a high level of safety in adults, adolescents and children with a side effect profile no different from the placebo. Its development is an exciting milestone in the treatment of allergic diseases.
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PMID:Omalizumab, a novel anti-IgE therapy in allergic disorders. 1172 35

Evidence suggests that allergy is a significant triggering factor in asthma in children and adults alike. In immunoglobulin (Ig) E-mediated allergic reactions, sensitization occurs when allergen-specific B cells are stimulated and switched to IgE antibody production by interleukin (IL)-4 and IL-13 provided by helper T cells type 2 (Th2). The IgE antibodies act by arming cells bearing either the high-affinity (FcepsilonRI) or low-affinity (FcepsilonRII or CD23) receptor. The subsequent interaction of allergen with IgE-FcepsilonRI complexes on mast cells and basophils causes cross-linking of receptors that triggers the release of a variety of inflammatory mediators, cytokines and chemokines. Therefore, the ability to lower circulating free IgE levels is desirable because most individuals are exposed to multiple allergens to which they are sensitive at any given time. Omalizumab (formerly known as rhuMAb-E25) is a recently developed humanized monoclonal anti-IgE antibody directed at the FcepsilonRI binding domain of human IgE. It inhibits binding of IgE to mast cells without provoking mast cell activation. Preliminary clinical data from randomized controlled trials have shown that the addition of omalizumab to standard asthma therapy reduces asthma exacerbations and decreases inhaled corticosteroid and rescue medication use. The compound is also well tolerated. Omalizumab represents a novel therapeutic approach in the management of asthma.
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PMID:Allergens in the pathogenesis of asthma: potential role of anti-immunoglobulin E therapy. 1472 38

Since the discovery of immunoglobulin E (IgE) antibodies thirty-six years ago, our understanding of the mechanisms of allergy has improved to such an extent that we can now better differentiate allergy from non-allergic hypersensitivity, and allergic/atopic from intrinsic/non-atopic bronchial asthma. IgE antibodies are crucial immune mediators of airway inflammation in allergic atopic asthma and IgE-mediated hypersensitivity reactions are the likely mechanisms of allergen-induced airway obstruction. In addition, IgE may cause chronic airway inflammation in asthma through effector cells activated via high-affinity (Fcepsilon RI) or low-affinity (Fcepsilon RII) IgE receptors. Therapeutic anti-IgE antibodies able to reduce free IgE levels and to block the binding of IgE to Fcepsilon RI without cross-linking IgE and triggering degranulation of IgE-sensitised cells have been developed. This non-anaphylactogenic anti-IgE monoclonal antibody (rhuMAb-E25; omalizumab) binds IgE at the same site as these antibodies bind Fcepsilon RI and Fcepsilon RII. As a consequence, omalizumab inhibits IgE effector functions by blocking IgE binding to high-affinity receptors on IgE effector cells and does not cause mast cell or basophil activation because it cannot bind to IgE on cell surfaces where the Fcepsilon R1 receptor already masks the anti-IgE epitope. Studies in patients with atopic asthma demonstrated that omalizumab decreases serum IgE levels and allergen-induced bronchoconstriction during both the early and late-phase responses to inhaled allergen. In several clinical controlled trials omalizumab resulted to be able to reduce asthma-related symptoms, to decrease corticosteroid use and to improve quality of life of asthmatic patients. The anti-IgE approach to asthma treatment has several advantages, including concomitant treatment of other IgE-mediated diseases (allergic rhinitis, allergic conjunctivitis, atopic dermatitis and food allergies), a favourable side-effect profile and a twice-monthly dosing frequency.
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PMID:Anti-IgE monoclonal antibody (omalizumab) in the treatment of atopic asthma and allergic respiratory diseases. 1537 89

Among the allergic disorders we emphasize the inflammatory diseases of the inferior respiratory tract by their incidence, repercussion in daily activities, and by their high cost of medical attention. For their treatment, they require more than one inhaled or systemic drug. Current medicines tend to have adverse or secondary effects, such as: osteoporosis, type 3 diabetes mellitus, tremor or tachycardia. New medicines are being developed with less adverse or secondary effects, and much more selective and specific in the molecules involved in the allergic disease's physiopathology. Among them we find pascolizumab, which inhibits the differentiation made to Th2, as well as the citokines production. Other drugs are: mepolizumab, monoclonal antibody antiCD23, and the selective inhibitor of IgE (AJP13358) Rhu-Mab-E25. Currently, they are being developed some new drugs, such as SB-207499 (SKB) and LAS 31025, which are selective inhibitors of fosfodiesterase. Within the currently studied medicines that offer high specificity to inhibit the synthesis of interleukines we emphasize the presence of humanized monoclonal antibodies antireceptor IL-4. The anti IL-5 (SB-240563) is administered in asthmatic patients to reduce eosinofilia in expectoration. Tosilate of suplatast is a selective IL-4 and IL-5 inhibitor. Ramatroban (BAY or 3405) is an antagonist of the tromboxane A2 receptor, which reduces the inflammatory process of the nasal mucose without hemodynamic effects. Immunotherapy with peptides avoids the response of IgE by the allergen, without mast cell degranulation.
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PMID:[Current and future approaches for the treatment of inflammatory diseases of inferior respiratory tract]. 1697 Jan 11

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