Person:
Gil Dones, Félix

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First Name
Félix
Last Name
Gil Dones
URI
https://hdl.handle.net/20.500.14352/74303
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Biológicas
Department
Genética, Fisiología y Microbiología
Area
Genética
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2010 - 20112
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    Targeting antigens to an invariant epitope of the MHC Class II DR molecule potentiates the immune response to subunit vaccines
    (Virus Research, 2011) Pérez-Filgueira, Mariano; Barderas, María G.; Alonso, Covadonga; José M, Escribano; Gil Dones, Félix; Pastor Vargas, Carlos; Vivanco Martínez, Fernando
    Recombinant subunit and peptidic vaccines in general present a reduced immunogenicity in vaccinated individuals with respect to the whole pathogen from which they derived. The generation of strong immune responses to these vaccines requires the use of potent adjuvants, high antigen doses and repetitive vaccinations. In this report, we document the enhanced antibody response obtained against two recombinant subunit vaccines by means of targeting to antigen-presenting cells by a recombinant single chain antibody. This antibody, named APCH1, recognizes an epitope of MHC Class II DR molecule preserved in different animal species, including humans. We showed that vaccinal antigens translationally fused to APCH1 antibody and produced by recombinant baculoviruses in insect larvae (Trichoplusia ni), elicited an increased antibody response in comparison with the same antigens alone or fused to a carrier molecule. These results suggest that targeting of antigens to this invariant MHC Class II epitope has immunopotentiating effects that could circumvent the reduced potency of peptidic or subunit vaccines, opening the possibility of widespread application of APCH1 as a new adjuvant antibody of general use.
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    Watermelon Profilin: Characterization of a Major Allergen as a Model for Plant-Derived Food Profilins
    (International Archives of Allergy Immunology, 2010) Cases, Bárbara ; Pastor Vargas, Carlos; Gil Dones, Félix; Perez-Gordo, Marina; Maroto, Aroa; las Heras, Manuel de las; Vivanco Martínez, Fernando; Cuesta-Herranz, Javier
    Background: Plant profilins have been reported as minor allergens. They are a well-known pan-allergen family responsible for cross-reactivity between plant-derived foods and pollens. Watermelon profilin has been reported to be a major allergen in watermelon (Citrullus lanatus).The aim of this study was to characterize recombinant watermelon profilin, confirming its reactivity for diagnostic purposes and the development of immunotherapy. Methods: Native profilin was purified from watermelon extract by affinity chromatography using poly-L-proline. Recombinant His-tagged profilin was produced in Pichia pastoris yeast using pPICZαA vector and purified by metal chelate affinity chromatography. ELISA and immunoblot were carried out with sera from 17 watermelon-allergic patients. Biological activity was tested by the basophil activation test. Results: Native profilin and recombinant profilin were purified and identified by mass spectrometry. Both show similar IgE reactivity in vitro and are biologically active. Conclusions: Similarities were found in the IgE-binding patterns and biological activity of recombinant profilin and native profilin. Recombinant profilin may be a powerful tool for specific diagnosis.