BACKGROUND: Lipid-transfer proteins (LTPs), but not Bet v 1 homologues, have been identified as major allergens of apple and peach in the Rosaceae fruit-allergic population in the Mediterranean area. Many of these patients show cosensitization to mugwort pollen. LTPs have an ubiquitous distribution in tissues of many plant species, and have been proposed as a novel type of plant panallergens. OBJECTIVE: We sought to isolate LTPs from Artemisia pollen and from a plant food not belonging to the Rosaceae family, such as chestnut nut, and to compare their amino acid sequences and IgE-binding capacities with those of apple and peach LTPs. METHODS: Allergens (LTPs) were isolated by different chromatographic methods (gel-filtration, ion exchange and/or reverse-phase HPLC), and characterized by N-terminal amino acid sequencing and MALDI analysis. Specific IgE-quantification and immunodetection, as well as immunoblot and ELISA inhibition assays, were carried out using sera from patients allergic to both apple and peach. RESULTS: Purified LTPs from Artemisia pollen and from chestnut seed showed molecular masses about 9 700d, and 43-50% sequence identity with the equivalent allergens of apple and peach in the first 30 N-terminal residues, which comprise about one third of the total amino acid sequence. A similar degree of sequence identity (50%) was found between the Artemisia and chestnut proteins. Both isolated LTPs bound specific IgE of sera from Rosaceae fruits allergic patients. However, substantially lower values of specific IgE-binding and maximum ELISA inhibition percentages were obtained for Artemisia and chestnut LTPs when compared to those from apple and peach. CONCLUSION: LTPs from Artemisia pollen and chestnut crossreact with allergens (LTPs) of Rosaceae fruits, but significant differences in specific IgE-binding capacities were observed among members of the plant LTP family. Thus, further studies are needed to evaluate the clinical significance of the observed cross-reactivities of plant LTPs.
BACKGROUND:Lipid-transfer proteins (LTPs), but not Bet v 1 homologues, have been identified as major allergens of apple and peach in the Rosaceae fruit-allergic population in the Mediterranean area. Many of these patients show cosensitization to mugwort pollen. LTPs have an ubiquitous distribution in tissues of many plant species, and have been proposed as a novel type of plant panallergens. OBJECTIVE: We sought to isolate LTPs from Artemisia pollen and from a plant food not belonging to the Rosaceae family, such as chestnut nut, and to compare their amino acid sequences and IgE-binding capacities with those of apple and peach LTPs. METHODS: Allergens (LTPs) were isolated by different chromatographic methods (gel-filtration, ion exchange and/or reverse-phase HPLC), and characterized by N-terminal amino acid sequencing and MALDI analysis. Specific IgE-quantification and immunodetection, as well as immunoblot and ELISA inhibition assays, were carried out using sera from patientsallergic to both apple and peach. RESULTS: Purified LTPs from Artemisia pollen and from chestnut seed showed molecular masses about 9 700d, and 43-50% sequence identity with the equivalent allergens of apple and peach in the first 30 N-terminal residues, which comprise about one third of the total amino acid sequence. A similar degree of sequence identity (50%) was found between the Artemisia and chestnut proteins. Both isolated LTPs bound specific IgE of sera from Rosaceae fruits allergicpatients. However, substantially lower values of specific IgE-binding and maximum ELISA inhibition percentages were obtained for Artemisia and chestnut LTPs when compared to those from apple and peach. CONCLUSION: LTPs from Artemisia pollen and chestnut crossreact with allergens (LTPs) of Rosaceae fruits, but significant differences in specific IgE-binding capacities were observed among members of the plant LTP family. Thus, further studies are needed to evaluate the clinical significance of the observed cross-reactivities of plant LTPs.
Authors: Nuria Cubells-Baeza; Cristina Gómez-Casado; Leticia Tordesillas; Carmen Ramírez-Castillejo; María Garrido-Arandia; Pablo González-Melendi; María Herrero; Luis F Pacios; Araceli Díaz-Perales Journal: Plant Mol Biol Date: 2017-03-15 Impact factor: 4.076
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: Arantxa Palacín; Cristina Gómez-Casado; Luis A Rivas; Jacobo Aguirre; Leticia Tordesillas; Joan Bartra; Carlos Blanco; Teresa Carrillo; Javier Cuesta-Herranz; Consolación de Frutos; Genoveva García Alvarez-Eire; Francisco J Fernández; Pedro Gamboa; Rosa Muñoz; Rosa Sánchez-Monge; Sofía Sirvent; María J Torres; Susana Varela-Losada; Rosalía Rodríguez; Victor Parro; Miguel Blanca; Gabriel Salcedo; Araceli Díaz-Perales Journal: PLoS One Date: 2012-12-14 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