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  • Title: Carrier-bound, nonallergenic Ole e 1 peptides for vaccination against olive pollen allergy.
    Author: Twaroch TE, Focke M, Civaj V, Weber M, Balic N, Mari A, Ferrara R, Quirce S, Spitzauer S, Swoboda I, Valenta R.
    Journal: J Allergy Clin Immunol; 2011 Jul; 128(1):178-184.e7. PubMed ID: 21513971.
    Abstract:
    BACKGROUND: Trees of the family Oleaceae (olive and ash) are important allergen sources in Mediterranean countries, Northern and Central Europe, and North America. The major olive pollen allergen Ole e 1 represents the majority of allergenic epitopes in olive pollen and cross-reacts with Fra e 1, the major ash pollen allergen. OBJECTIVE: We sought to develop a safe vaccine for the treatment of Oleaceae pollen allergy. METHODS: We synthesized 5 peptides ranging from 32 to 36 amino acids, which covered the whole sequence of Ole e 1. The IgE and T-cell reactivity of the peptides was compared with that of Ole e 1 by means of dot blot experiments, as well as ELISA, and in proliferation assays. Rabbits were immunized with non-IgE-reactive, keyhole limpet hemocyanin-coupled peptides or Ole e 1. The reactivity of the IgG antibodies with Ole e 1 and their ability to inhibit IgE binding to nOle e 1 was evaluated by means of ELISA. RESULTS: Only the C-terminal Ole e 1 peptide showed IgE binding, whereas the other peptides were nonallergenic. Immunization of rabbits with Ole e 1-derived peptides bound to the carrier molecule keyhole limpet hemocyanin induced in rabbits the production of Ole e 1-specific IgG antibodies, which cross-reacted with Fra e 1, and inhibited olive and ash pollen-sensitized patients' IgE binding to Ole e 1. CONCLUSION: Two non-IgE-binding peptides with low T-cell reactivity from the N-terminus of Ole e 1 were identified that might represent safe vaccine candidates for immunotherapy of Oleaceae pollen allergy.
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