The growing prevalence of allergy and asthma in India has become a major health concern with symptoms ranging from mild rhinitis to severe asthma and even life-threatening anaphylaxis. The “allergen repertoire” of this subcontinent is highly diverse due to the varied climate, flora, and food habits. The proper identification, purification, and molecular characterization of allergy-eliciting molecules are essential in order to facilitate an accurate diagnosis and to design immunotherapeutic vaccines. Although several reports on prevalent allergens are available, most of these studies were based on preliminary detection and identification of the allergens. Only a few of these allergen molecules have been characterized by recombinant technology and structural biology. The present review first describes the composition, distribution pattern, and natural sources of the predominant allergens in India along with the prevalence of sensitization to these allergens across the country. We go on to present a comprehensive report on the biochemical, immunological, and molecular information on the allergens reported so far from India. The review also covers the studies on allergy- related biosafety assessment of transgenic plants. Finally, we discuss the allergen-specific immunotherapy trials performed in India.
Airflow limitation in chronic obstructive pulmonary disease (COPD) is associated with influx of various inflammatory cells (e.g. eosinophils, neutrophils, lymphocytes, macrophages) into the airways. Approximately one-third of stable COPD patients and one in five COPD exacerbations are associated with eosinophilic bronchitis that usually responds to inhaled or ingested corticosteroids [1]. Specific anti-eosinophil agents like mepolizumab, a humanised monoclonal antibody against interleukin 5 (IL-5), reduce severe asthma exacerbations and improve lung function [2][3][4]. The improvement in forced expiratory volume in 1 s (FEV1) is also associated with a decrease in biomarkers of airway remodelling, such as sputum hyaluronan and versican, over a 6-month treatment period [5]. It is not known if the same benefits are observed in patients with COPD and eosinophilia in whom the airflow obstruction is due to cigarette smoke-related bronchitis and emphysema.The primary objective of this "proof of principle", single centre, randomised, placebo-controlled, parallelgroup, double-blinded, 6-month trial (with 4-month follow up) was to determine if mepolizumab could decrease sputum eosinophil percentage in those patients with cigarette smoke-related COPD who have persistent sputum eosinophilia. The other objectives were to assess the effects of mepolizumab on blood eosinophil count, lung function, exacerbation rate, symptoms and quality of life, and sputum hyaluronan and versican as markers of airway remodelling. The study enrolled adults aged 40-80 years, with moderate to severe COPD (post-bronchodilator FEV1 to forced vital capacity ratio <70% and FEV1 <60% predicted, on high doses of inhaled corticosteroids and long-acting bronchodilator β-agonists, muscarinic agonist or both) and at least one major exacerbation requiring prednisone in the preceding year and who had demonstrated, within the past 24 months, at least 100 mL improvement in FEV1 with a 5-day course of 30 mg prednisone daily. Participants were current or past smokers with a tobacco smoking history of ⩾10 pack-years with sputum eosinophils >3%, or many (3+
Efficacy of allergen-specific immunotherapy is often severely impaired by detrimental
Clinical trials do not report sputum eosinophil data in a consistent method and this makes it difficult to compare across studies and to evaluate the sample sizes estimated in these studies. The objectives of the paper are: 1) to systematically review reporting of effect size and sample calculations in randomised controlled trials using sputum eosinophil count as a primary outcome and 2) to illustrate sample size estimation under different methods of data representation using data from an effective anti-eosinophil treatment strategy (mepolizumab).Randomised controlled trials in adults (excluding allergen provocation models) of treatment of asthma and chronic obstructive pulmonary disease for the past 10 years were searched in Ovid MEDLINE and 20 studies were identified that met all the inclusion criteria. Only nine studies discussed sample size calculation.Change from baseline was used as an outcome in 11 studies and was expressed as change in absolute percentage count, percentage change from baseline or as fold changes.Assuming a minimal clinically important reduction of 15% in absolute terms, 18 subjects in each arm will be required to achieve 80% power using an ANCOVA analysis, which we recommend, to detect significance with an alpha error of 0.05. @ERSpublications Systematic review and illustration of sample size calculations in RCTs using sputum eosinophil count as a primary outcome
Papaya has been reported to elicit IgE-mediated hypersensitivity via pollen inhalation and fruit consumption. Certain papaya sensitive patients with food allergy were found to experience recurrent respiratory distresses even after quitting the consumption of fruits. This observation prompted us to investigate the allergens commonly present in fruits and pollen grains of papaya. A discovery approach consisting of immunoproteomic detection followed by molecular characterization led to the identification of a novel papaya allergen designated as Cari p 1. This allergen was detected as a 56 kDa IgE-reactive protein from pollen as well as fruit proteome through serological analysis. The protein was identified as an endopolygalacturonase by tandem mass spectrometry. Full length Cari p 1 cDNA was isolated from papaya pollen, cloned in expression vector, and purified as recombinant allergen. The recombinant protein was monomeric and displayed pectinolytic activity. Recombinant Cari p 1 reacted with IgE-antibodies of all the papaya sensitized patient sera. In addition to IgE-reactivity, rCari p 1 displayed allergenic activity by stimulating histamine release from IgE-sensitized granulocytes. CD-spectroscopy of rCari p 1 revealed the presence of predominantly β-sheet characters. The melting curve of the allergen showed partial refolding from a fully denatured state indicating the possible presence of conformational IgE-epitopes characteristic of inhalant allergens in addition to the linear IgE-epitopes of food allergens. The expression of this allergen in papaya fruits was detected by immunoblot with anti-Cari p 1 rabbit IgG and reconfirmed by PCR. In an in vivo mouse model, rCari p 1 exhibited a comparable level of inflammatory responses in the lung and duodenum tissues explaining the dual role of Cari p 1 allergen in respiratory sensitization via pollen inhalation and sensitization of gut mucosa via fruit consumption. Purified rCari p 1 can be used a marker allergen for component-resolved molecular diagnosis. Further immunological studies on Cari p 1 are warranted to design immunotherapeutic vaccine for the clinical management of papaya allergy.
BackgroundThe pathobiology of atopic asthma is complex and the symptoms similar to other respiratory diseases. As such, identification of biomarkers of atopic asthma is of prime importance for better diagnosis and control of the disease.ObjectivesWe sought to study the changes in plasma proteome and cytokine-expression profile across healthy and atopic asthmatics for identifying biomarkers and exploring aberrant pathways for atopic asthma.MethodsA pilot-scale study in humans was performed to identify differentially expressed proteins in blood plasma of healthy controls (n=5) and treatment-naïve atopic asthma patients (n=5) using quantitative label-free liquid chromatography–tandem mass spectrometry proteomics and ELISA.ResultsMass spectrometry–based proteomic analysis revealed ApoE to be significantly downregulated in atopic asthmatics compared to healthy volunteers. Decreased expression of ApoE in atopic asthmatics was validated by immunoblotting (50.74% decrease). Comparison with atopic asthmatics and COPD patients showed that ApoE was decreased (36.33%) in atopic asthma compared to COPD. IL33 was significantly upregulated in atopic asthmatics compared to healthy subjects (3.84-fold).ConclusionApoE was downregulated and IL33 upregulated in atopic asthma patients compared to healthy volunteers. These two proteins' profiles were distinct in atopic asthma from healthy and COPD plasma samples. Differential expression of these proteins could serve as a probable candidate for a two-protein classifier–based prognostic biomarker of atopic asthma.
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