BACKGROUND: Peach is the most important fruit related to food allergy in the Mediterranean area. Pru p 3, its lipid transfer protein, has been described as the principal allergen responsible for cross-reactivities with other foods and pollen and the severity of clinical symptoms. However, the involvement of other allergenic families cannot be ruled out. Thaumatin-like proteins (TLPs) have been described as food allergen in several fruits, such as apple, cherry, kiwi and banana, and pollen. OBJECTIVE: To identify members of the TLP family in peach fruit and to characterize putative allergens. METHODS: Through two-dimensional (2D) electrophoresis of peach extract and immunodetections with a pool of peach-allergic patients, IgE-binding spots were identified and the corresponding proteins purified and characterized as allergens by in vitro and in vivo assays. Three isoforms, belonging to the TLP family, were purified by different chromatographic systems and characterized by N-terminal amino acid sequences, molecular weight determination (MALDI) and enzymatic activity analysis (beta-1,3-gluconase test and inhibition growth of fungi). In the same way, their IgE-binding capacity and allergenic activity were tested by ELISA assays, basophil activation tests and skin prick tests (SPT). RESULTS: Two peach-TLPs, Pru p 2.0101 and Pru p 2.0201, were identified as IgE-binding spots by 2D electrophoresis. Another peach-TLP, Pru p 2.0301, was cloned and produced as recombinant protein in a yeast system. The three isoforms were purified and characterized as TLPs by immunoblotting with anti-chestnut TLP antibodies and anti-plant N-asparagine complex glycan (anti-cross-reactive carbohydrate determinant). All of them showed beta-1,3-glucanase activity and inhibition of fungal growth. The three TLPs were recognized by around 50% of the sera from 31 patients analysed in ELISA experiments. All three gave a positive response to an SPT and/or in basophil activation experiments. CONCLUSION: Three isoforms, belonging to the TLP family, were identified in peach as principal allergens. Their prevalence, observed in in vitro, ex vivo and in vivo analyses, suggests that they are important allergens and should therefore be included in the routine diagnosis of peach allergy, at least in the Mediterranean area.
BACKGROUND:Peach is the most important fruit related to food allergy in the Mediterranean area. Pru p 3, its lipid transfer protein, has been described as the principal allergen responsible for cross-reactivities with other foods and pollen and the severity of clinical symptoms. However, the involvement of other allergenic families cannot be ruled out. Thaumatin-like proteins (TLPs) have been described as food allergen in several fruits, such as apple, cherry, kiwi and banana, and pollen. OBJECTIVE: To identify members of the TLP family in peach fruit and to characterize putative allergens. METHODS: Through two-dimensional (2D) electrophoresis of peach extract and immunodetections with a pool of peach-allergicpatients, IgE-binding spots were identified and the corresponding proteins purified and characterized as allergens by in vitro and in vivo assays. Three isoforms, belonging to the TLP family, were purified by different chromatographic systems and characterized by N-terminal amino acid sequences, molecular weight determination (MALDI) and enzymatic activity analysis (beta-1,3-gluconase test and inhibition growth of fungi). In the same way, their IgE-binding capacity and allergenic activity were tested by ELISA assays, basophil activation tests and skin prick tests (SPT). RESULTS: Two peach-TLPs, Pru p 2.0101 and Pru p 2.0201, were identified as IgE-binding spots by 2D electrophoresis. Another peach-TLP, Pru p 2.0301, was cloned and produced as recombinant protein in a yeast system. The three isoforms were purified and characterized as TLPs by immunoblotting with anti-chestnut TLP antibodies and anti-plant N-asparagine complex glycan (anti-cross-reactive carbohydrate determinant). All of them showed beta-1,3-glucanase activity and inhibition of fungal growth. The three TLPs were recognized by around 50% of the sera from 31 patients analysed in ELISA experiments. All three gave a positive response to an SPT and/or in basophil activation experiments. CONCLUSION: Three isoforms, belonging to the TLP family, were identified in peach as principal allergens. Their prevalence, observed in in vitro, ex vivo and in vivo analyses, suggests that they are important allergens and should therefore be included in the routine diagnosis of peachallergy, at least in the Mediterranean area.
Authors: Arantxa Palacín; Luis A Rivas; Cristina Gómez-Casado; Jacobo Aguirre; Leticia Tordesillas; Joan Bartra; Carlos Blanco; Teresa Carrillo; Javier Cuesta-Herranz; José A Cumplido Bonny; Enrique Flores; Mar G García-Alvarez-Eire; Ignacio García-Nuñez; Francisco J Fernández; Pedro Gamboa; Rosa Muñoz; Rosa Sánchez-Monge; Maria Torres; Susana Varela Losada; Mayte Villalba; Francisco Vega; Victor Parro; Miguel Blanca; Gabriel Salcedo; Araceli Díaz-Perales Journal: PLoS One Date: 2012-09-07 Impact factor: 3.240
Authors: Maria Livia Bernardi; Ivana Giangrieco; Laura Camardella; Rosetta Ferrara; Paola Palazzo; Maria Rosaria Panico; Roberta Crescenzo; Vito Carratore; Danila Zennaro; Marina Liso; Mario Santoro; Sara Zuzzi; Maurizio Tamburrini; Maria Antonietta Ciardiello; Adriano Mari Journal: PLoS One Date: 2011-11-17 Impact factor: 3.240
Authors: Giorgio Walter Canonica; Ignacio J Ansotegui; Ruby Pawankar; Peter Schmid-Grendelmeier; Marianne van Hage; Carlos E Baena-Cagnani; Giovanni Melioli; Carlos Nunes; Giovanni Passalacqua; Lanny Rosenwasser; Hugh Sampson; Joaquin Sastre; Jean Bousquet; Torsten Zuberbier Journal: World Allergy Organ J Date: 2013-10-03 Impact factor: 4.084