F. Battais scite author profile

Results obtained in the different tests showed common features and in agreement with other studies indicated the presence of numerous allergens in food allergy to wheat; alpha-, beta-, gamma- and omega-gliadins, LMW glutenin subunits and some water/salt-soluble proteins appeared as major IgE binding allergens, whereas HMW glutenins were only minor allergens. The same type of antigenic profile against gliadins and glutenins was observed with IgG antibodies. Important sequence or structural homologies between the various gliadins and LMW glutenin subunits could certainly explain similarity of IgE binding to these proteins.

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Food allergy to wheat: differences in immunoglobulin E-binding proteins as a function of age or symptoms

Battais¹,

Courcoux

Popineau³

et al. 2005

Journal of Cereal Science

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Allergy to deamidated gluten in patients tolerant to wheat: specific epitopes linked to deamidation

Denery-Papini

Bodinier

Larré

et al. 2012

Allergy

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Background Gluten proteins can be modified by deamidation to enhance their solubility and technological applications. However, severe allergic reactions have been reported after the consumption of food products containing deamidated gluten (DG) in subjects tolerant to wheat. This work aimed to characterize allergen profiles for these patients in comparison with those of patients allergic to wheat and to identify IgE‐binding epitopes. Methods Sera were obtained from 15 patients allergic to DG and from nine patients allergic to wheat proteins (WP). IgE‐binding profiles were characterized both in ELISA and in a humanized rat basophilic leukaemia (RBL) cell model. Epitopes were mapped on γ‐ and ω2‐gliadin sequences by Pepscan, and effect of glutamine/glutamic acid substitutions was studied. Results Compared to the heterogeneous pattern of allergens detected by IgE from patients allergic to WP, responses of patients allergic to DG were homogeneous. In ELISA, all the sera displayed IgE binding to deamidated γ‐ and ω2‐gliadins and deamidated total gliadins, frequently with high concentrations. These modified proteins induced RBL degranulation with most of the sera from DG‐allergic patients. A consensus epitope was found on native γ‐ and ω2‐gliadins (QPQQPFPQ); it was repeated several times in their sequences. The substitution of two or three glutamines of this epitope into glutamic acid at positions Q3 or Q4 and Q8 (QPEEPFPE) increased its recognition the best. Conclusion Allergy to DG is a separate entity from wheat allergy. It can be evidenced by strong IgE binding to deamidated gliadins or peptides of the type QPEEPFPE.

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In vitro detection of chemical allergens: an optimized assay using mouse bone marrow‐derived dendritic cells

et al. 2017

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F. Battais

Identification of IgE‐binding epitopes on gliadins for patients with food allergy to wheat

Food allergy to wheat: identification of immunogloglin E and immunoglobulin G‐binding proteins with sequential extracts and purified proteins from wheat flour

Food allergy to wheat: differences in immunoglobulin E-binding proteins as a function of age or symptoms

Allergy to deamidated gluten in patients tolerant to wheat: specific epitopes linked to deamidation

In vitro detection of chemical allergens: an optimized assay using mouse bone marrow‐derived dendritic cells

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