BACKGROUND: Lipid-transfer proteins (LTPs) have been identified as major allergens of Rosaceae fruits in populations living in areas virtually free of Fagales trees, such as several Mediterranean communities. Pru p 3 and Mal d 3, the allergens from peach and apple, respectively, have a main clinical relevance in these areas. OBJECTIVE: To isolate and characterize cDNAs for Pru p 3 and Mal d 3, and to produce recombinant Pru p 3 in the yeast Pichiapastoris. METHODS: cDNAs for both allergens were isolated by polymerase chain reaction using nondegenerated primers. Expression of Pru p 3 was performed in P. pastoris using the pPIC 9 vector. The recombinant product was purified by gel-filtration chromatography followed by RP-HPLC. Immunodetection and immunoblot inhibition assays were carried out with sera from peach-allergic patients. RESULTS: The cDNAs for both Pru p 3 and Mal d 3 showed a 273 open reading frame coding for the 91 amino acid mature polypeptides. The deduced amino acid sequences exhibited N-terminal regions fully identical to those previously determined for the natural peach and apple allergens. Pru p 3 was expressed in P. pastoris at 20 mg/L of culture medium. The recombinant allergen showed the same N-terminal sequence (plus a glutamic acid added for proper extracellular expression) and apparent molecular size as natural Pru p 3. Both the recombinant and natural forms of Pru p 3 displayed similar immunoglobulin (Ig)E-binding capacity in immunodetection and immunoblot inhibition assays. CONCLUSIONS: Comparison of the complete primary structures of mature Pru p 3 and Mal d 3 deduced from their corresponding cDNA clones supports the close relationship between both allergens. Recombinant Pru p 3 binds IgE in vitro like its natural counterpart. Therefore, it can be a useful tool for specific diagnosis and structural studies.
BACKGROUND:Lipid-transfer proteins (LTPs) have been identified as major allergens of Rosaceae fruits in populations living in areas virtually free of Fagales trees, such as several Mediterranean communities. Pru p 3 and Mal d 3, the allergens from peach and apple, respectively, have a main clinical relevance in these areas. OBJECTIVE: To isolate and characterize cDNAs for Pru p 3 and Mal d 3, and to produce recombinant Pru p 3 in the yeast Pichiapastoris. METHODS: cDNAs for both allergens were isolated by polymerase chain reaction using nondegenerated primers. Expression of Pru p 3 was performed in P. pastoris using the pPIC 9 vector. The recombinant product was purified by gel-filtration chromatography followed by RP-HPLC. Immunodetection and immunoblot inhibition assays were carried out with sera from peach-allergicpatients. RESULTS: The cDNAs for both Pru p 3 and Mal d 3 showed a 273 open reading frame coding for the 91 amino acid mature polypeptides. The deduced amino acid sequences exhibited N-terminal regions fully identical to those previously determined for the natural peach and apple allergens. Pru p 3 was expressed in P. pastoris at 20 mg/L of culture medium. The recombinant allergen showed the same N-terminal sequence (plus a glutamic acid added for proper extracellular expression) and apparent molecular size as natural Pru p 3. Both the recombinant and natural forms of Pru p 3 displayed similar immunoglobulin (Ig)E-binding capacity in immunodetection and immunoblot inhibition assays. CONCLUSIONS: Comparison of the complete primary structures of mature Pru p 3 and Mal d 3 deduced from their corresponding cDNA clones supports the close relationship between both allergens. Recombinant Pru p 3 binds IgE in vitro like its natural counterpart. Therefore, it can be a useful tool for specific diagnosis and structural studies.
Authors: L Tordesillas; N Cubells-Baeza; C Gómez-Casado; C Berin; V Esteban; W Barcik; L O'Mahony; C Ramirez; L F Pacios; M Garrido-Arandia; A Díaz-Perales Journal: Clin Exp Allergy Date: 2017-07-14 Impact factor: 5.018
Authors: Z S Gao; W E van de Weg; J G Schaart; I M van der Meer; L Kodde; M Laimer; H Breiteneder; K Hoffmann-Sommergruber; L J W J Gilissen Journal: Theor Appl Genet Date: 2005-01-13 Impact factor: 5.699
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; 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: Ana María M Murillo; Luis G Valle; Yolanda Ramírez; María Jesús Sánchez; Beatriz Santamaría; E Molina-Roldan; Isabel Ortega-Madueño; Elena Urcelay; Luca Tramarin; Pedro Herreros; Araceli Díaz-Perales; María Garrido-Arandia; Jaime Tome-Amat; Guadalupe Hernández-Ramírez; Rocío L Espinosa; María F Laguna; Miguel Holgado Journal: Biosensors (Basel) Date: 2022-08-23
Authors: C Gómez-Casado; M Garrido-Arandia; P Gamboa; N Blanca-López; G Canto; J Varela; J Cuesta-Herranz; L F Pacios; A Díaz-Perales; L Tordesillas Journal: Clin Dev Immunol Date: 2013-11-14