BACKGROUND: The buckwheat 16-kDa protein (BWp16), as reported in our previous study, is a major allergen in buckwheat; however, the IgE-binding epitopes of BWp16 have not as yet been identified. METHODS: We screened candidates for IgE-binding epitopes on BWp16 by using arrays of overlapping peptides synthesized on activated cellulose membranes (SPOTs membrane). The mimotope method was also used to analyze IgE-binding epitopes of BWp16. Nine single alanine (Ala) mutants of BWp16 expressed in Escherichia coli were used to confirm the epitopes of BWp16. The IgE-binding activity of single Ala mutants of BWp16 was determined by ELISA with mouse anti-BWp16 polyclonal antiserum or ELISA inhibition with sera from buckwheat allergic patients. RESULTS: The SPOTs assay identified amino acid residues 99-110, i.e. EGVRDLKELPSK, as a candidate for the linear IgE-binding epitope of BWp16. The mimotope method indicated that peptides similar to EGVRDLKE were candidate sequences for epitopes of BWp16. Ala scanning of rBWp16 revealed that all EGVRDLKE peptides containing a single amino acid mutation had weaker IgE-binding activity than rBWp16 WT. An ELISA inhibition assay for rBWp16 WT revealed the inhibitory effect of rBWp16 D103A to be less than that of rBWp16 WT. CONCLUSIONS: We identified the peptide EGVRDLKE as a very likely candidate for the IgE-binding epitope of BWp16, and Asp103 as the critical amino acid in BWp16. This is the first report on the identification of IgE-binding epitopes of BWp16. Our findings will contribute to the production of BWp16 hypoallergens, and to allergen-specific immunotherapy for buckwheat allergy.
BACKGROUND: The buckwheat 16-kDa protein (BWp16), as reported in our previous study, is a major allergen in buckwheat; however, the IgE-binding epitopes of BWp16 have not as yet been identified. METHODS: We screened candidates for IgE-binding epitopes on BWp16 by using arrays of overlapping peptides synthesized on activated cellulose membranes (SPOTs membrane). The mimotope method was also used to analyze IgE-binding epitopes of BWp16. Nine single alanine (Ala) mutants of BWp16 expressed in Escherichia coli were used to confirm the epitopes of BWp16. The IgE-binding activity of single Ala mutants of BWp16 was determined by ELISA with mouse anti-BWp16 polyclonal antiserum or ELISA inhibition with sera from buckwheatallergicpatients. RESULTS: The SPOTs assay identified amino acid residues 99-110, i.e. EGVRDLKELPSK, as a candidate for the linear IgE-binding epitope of BWp16. The mimotope method indicated that peptides similar to EGVRDLKE were candidate sequences for epitopes of BWp16. Ala scanning of rBWp16 revealed that all EGVRDLKE peptides containing a single amino acid mutation had weaker IgE-binding activity than rBWp16 WT. An ELISA inhibition assay for rBWp16 WT revealed the inhibitory effect of rBWp16 D103A to be less than that of rBWp16 WT. CONCLUSIONS: We identified the peptide EGVRDLKE as a very likely candidate for the IgE-binding epitope of BWp16, and Asp103 as the critical amino acid in BWp16. This is the first report on the identification of IgE-binding epitopes of BWp16. Our findings will contribute to the production of BWp16 hypoallergens, and to allergen-specific immunotherapy for buckwheatallergy.
Authors: Ruby Tiwari; Surendra S Negi; Benjamin Braun; Werner Braun; Anna Pomés; Martin D Chapman; Randall M Goldblum; Terumi Midoro-Horiuti Journal: Int Arch Allergy Immunol Date: 2011-11-23 Impact factor: 2.749