Mira Šilar scite author profile

BackgroundFood allergy is an increasing public health issue and the most common 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 and resulting in overdiagnosis and adverse effect on health-related quality of life.ObjectiveTo undertake initial validation and assessment of a novel diagnostic tool, we used the mast cell activation test (MAT).MethodsPrimary human blood-derived mast cells (MCs) were generated from peripheral blood precursors, sensitized with patients' sera, and then incubated with allergen. MC degranulation was assessed by means of flow cytometry and mediator release. We compared the diagnostic performance of MATs with that of existing diagnostic tools to assess in a cohort of peanut-sensitized subjects undergoing double-blind, placebo-controlled challenge.ResultsHuman blood-derived MCs sensitized with sera from patients with peanut, grass pollen, and Hymenoptera (wasp venom) allergy demonstrated allergen-specific and dose-dependent degranulation, as determined based on both expression of surface activation markers (CD63 and CD107a) and functional assays (prostaglandin D2 and β-hexosaminidase release). In this cohort of peanut-sensitized subjects, the MAT was found to have superior discrimination performance compared with other testing modalities, including component-resolved diagnostics and basophil activation tests. 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.ConclusionThe MAT is a robust tool that can confer superior diagnostic performance compared with existing allergy diagnostics and might be useful to explore differences in effector cell function between basophils and MCs during allergic reactions.

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Basophils, high-affinity IgE receptors, and CCL2 in human anaphylaxis

Korošec

Turner

Šilar

et al. 2017

Journal of Allergy and Clinical Immunology

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BackgroundThe role of basophils in anaphylaxis is unclear.ObjectiveWe sought to investigate whether basophils have an important role in human anaphylaxis.MethodsIn an emergency department study we recruited 31 patients with acute anaphylaxis, predominantly to Hymenoptera venom. We measured expression of basophil activation markers (CD63 and CD203c); the absolute number of circulating basophils; whole-blood FCER1A, carboxypeptidase A3 (CPA3), and L-histidine decarboxylase (HDC) gene expression; and serum markers (CCL2, CCL5, CCL11, IL-3, and thymic stromal lymphopoietin) at 3 time points (ie, during the anaphylactic episode and in convalescent samples 7 and 30 days later). We recruited 134 patients with Hymenoptera allergy and 76 healthy control subjects for comparison. We then investigated whether the changes observed during venom-related anaphylaxis also occur during allergic reactions to food in 22 patients with peanut allergy undergoing double-blind, placebo-controlled food challenge to peanut.ResultsThe number of circulating basophils was significantly lower during anaphylaxis (median, 3.5 cells/μL) than 7 and 30 days later (17.5 and 24.7 cells/μL, P < .0001) and compared with those in patients with venom allergy and healthy control subjects (21 and 23.4 cells/μL, P < .0001). FCER1A expression during anaphylaxis was also significantly lower than in convalescent samples (P ≤ .002) and control subjects with venom allergy (P < .0001). CCL2 levels (but not those of other serum markers) were significantly higher during anaphylaxis (median, 658 pg/mL) than in convalescent samples (314 and 311 pg/mL at 7 and 30 days, P < .001). Peanut-induced allergic reactions resulted in a significant decrease in circulating basophil counts compared with those in prechallenge samples (P = .016), a decrease in FCER1A expression (P = .007), and an increase in CCL2 levels (P = .003).ConclusionsOur findings imply an important and specific role for basophils in the pathophysiology of human anaphylaxis.

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High sensitivity of basophils predicts side‐effects in venom immunotherapy

Košnik

Šilar

Bajrović

et al. 2005

Allergy

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Recombinant allergen-based IgE testing to distinguish bee and wasp allergy

Mittermann¹,

Zidarn²,

Šilar³

et al. 2010

Journal of Allergy and Clinical Immunology

108

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Basophil response and the induction of a tolerance in venom immunotherapy: a long‐term sting challenge study

Eržen

Košnik

Šilar

et al. 2012

Allergy

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Immunoglobulin G‐dependent changes in basophil allergen threshold sensitivity during birch pollen immunotherapy

Lalek

Košnik

Šilar

et al. 2010

Clin Experimental Allergy

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Basophil responsiveness in patients with insect sting allergies and negative venom‐specific immunoglobulin E and skin prick test results

Korošec

Eržen

Šilar

et al. 2009

Clin Experimental Allergy

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High sensitivity of CAP-FEIA rVes v 5 and rVes v 1 for diagnosis of Vespula venom allergy

Korošec

Valenta

Mittermann

et al. 2012

Journal of Allergy and Clinical Immunology

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Mira Šilar

Mast cell activation test in the diagnosis of allergic disease and anaphylaxis

Basophils, high-affinity IgE receptors, and CCL2 in human anaphylaxis

High sensitivity of basophils predicts side‐effects in venom immunotherapy

Recombinant allergen-based IgE testing to distinguish bee and wasp allergy

Basophil response and the induction of a tolerance in venom immunotherapy: a long‐term sting challenge study

Immunoglobulin G‐dependent changes in basophil allergen threshold sensitivity during birch pollen immunotherapy

Basophil responsiveness in patients with insect sting allergies and negative venom‐specific immunoglobulin E and skin prick test results

High sensitivity of CAP-FEIA rVes v 5 and rVes v 1 for diagnosis of Vespula venom allergy

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