1. Important and specific role for basophils in acute allergic reactionsPeter Korošec, Bernhard F. Gibbs, Matija Rijavec, Adnan Custovic, Paul J. Turner, 2018, review article Abstract: IgE-mediated allergic reactions involve the activation of effector cells, predominantly through the high-affinity IgE receptor (FceRI) on mast cells and basophils. Although the mast cell is considered the major effector cell during acute allergic reactions, more recent studies indicate a potentially important and specific role for basophils and their migration which occurs rapidly upon allergen challenge in humans undergoing anaphylaxis. We review the evidence for a role of basophils in contributing to clinical symptoms of anaphylaxis, and discuss the possibility that basophil trafficking during anaphylaxis might be a pathogenic (to target organs) or protective (preventing degranulation in circulation) response. Finally, we examine the potential role of basophils in asthma exacerbations. Understanding the factors that regulate basophil trafficking and activation might lead to new diagnostic and therapeutic strategies in anaphylaxis and asthma.
Keywords: allergy and immunology, basophils, anaphylaxis
Published in DiRROS: 14.12.2020; Views: 1231; Downloads: 808
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2. Mast cell activation test in the diagnosis of allergic disease and anaphylaxisRajia Bahri, Adnan Custovic, Peter Korošec, Marina Tsoumani, Martin Barron, Jiakai Wu, Rebekah Sayers, Alf Weimann, Monica Ruiz-Garcia, Nandinee Patel, Mira Šilar, 2018, original scientific article Abstract: Background. Food allergy is an increasing public health issue and the commonest cause of life-threatening anaphylactic reactions. Conventional allergy tests assess for the presence of allergen-specific IgE, significantly overestimating the rate of true clinical allergy resulting in over-diagnosis and adverse impact on health-related quality of life. Objective. To undertake initial validation and assessment of a novel diagnostic tool, the mast cell activation test (MAT). Methods. Primary human mast cells (hMCs) were generated from peripheral blood precursors, and sensitized using patient sera and then incubated with allergen. Mast cell degranulation was assessed by flow cytometry and mediator release. We compared the diagnostic performance of MAT to existing diagnostic tools to assess in a cohort of peanut-sensitized individuals undergoing double-blind, placebo-controlled challenge. Results. hMCs sensitized with sera from peanut, grass pollen and hymenoptera- (wasp venom) allergic patients demonstrated allergen-specific and dose-dependent degranulation by both expression of surface activation markers (CD63 and CD107a) and functional assays (prostaglandins D2 and ß-hexosaminidase release). In this cohort of peanut-sensitized individuals, MAT was found to have superior discrimination performance compared to other testing modalities including component-resolved diagnostics and basophil activation test. Using functional principle component analysis, we identified 5 clusters or patterns of reactivity in the resulting dose-response curves, which at preliminary analysis corresponded to the reaction phenotypes seen at challenge. Conclusion. MAT is a robust tool which may confer superior diagnostic performance compared to existing allergy diagnostics, and may be useful to explore differences in effector cell function between basophils and mast cells during allergic reactions.
Keywords: allergy and immunology -- diagnosis, anaphylaxis, immunologic tests, mast cells, food hypersensitivity, basophil activation test, BAT, mast cell activation test
Published in DiRROS: 30.11.2020; Views: 1678; Downloads: 1575
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