Science and Technology Production
A novel methodology to develop a foand mouth disease virus (FMDV) peptide-based vaccine in transgenic plants.
Article
Authorship:
María José Dus Santos ; Andres Wigdorovitz ; TRONO, KARINA GABRIELA ; Raúl Rios ; Pascual Franzone ; Felix Gil ; Javier Moreno ; Consuelo Carrillo ; Borca ManuelDate:
2002Publishing House and Editing Place:
ELSEVIER SCI LTDMagazine:
VACCINE, vol. 20 (pp. 1141-1147) ELSEVIER SCI LTDSummary *
The expression of antigens in transgenic plants has been increasingly used as an alterntive to the classical methodologies for antigen expression in the development of experimental vaccines. However, an important limitation in most cases is the low concentration of the recombinant antigens in the plant tissues, which reduces the possibilities of practical applications. Bec se the site of insertion of the transferred DNA into the cellular chromosomal DNA is at random, different levels of foreign protein expression in independent transformants is expected. Strategies to allow the evaluation of a high number of the transgenic individuals, usually an expensive and very time consuming process, would permit the selection of those plants presenting the highest levels of recombinant protein expression. Here, we present the development of an experimental immunogen based in the expression of a highly immunogenic epitope from foand mouth disease virus (FMDV) fused to the glucuronidase (gus A) reporter gene, which allows selection of the transgenic plants by the ss-glucuronidase (ssGUS) ezymatic activity. We produced transgenic plants of alfalfa expressing the immunogenic site between amino acid residues 135-160 of structural protein VP1 (VP135-160), fused to the ssGUS protein. Plants expressing the highest levels of the immunogenic epitope VP135-160, analyzed by Weste blot, were efficiently selected based on their levels of ssGUS enzymatic activity. The FMDV epitope expressed in plants was highly immunogenic in mice which developed, after immunization, a strong anti-FMDV antibody response against a synthetic peptide representing the region VP135-160, to native virus VP1, and to purified FMDV particles. Additionally, these mice were completely protected against experimental challenge with the virulent virus. To our knowledge, this constitutes the first report of a peptide-based vaccine produced in transgenic plants that induces a protective immune response when used in eperimental hosts. Also, these results demonstrated the possibility of using a novel and simple methodology for obtaining transgenic plants expressing high levels of foreign immunogenic epitopes, which could be directly applied in the development of plant-based vaccines. Information provided by the agent in SIGEVAKey Words
PlantasVAcunasAftosaRecombinantes