An epitopic approach to designing and characterization of a multiple antigenic polypeptide against Botulinum neurotoxins A and E

Abstract

Botulinum neurotoxin (BoNT) serotypes A, B and E are most frequently associated with human botulism. Recombinant vaccines against BoNTs are usually based on one or more domain(s) of the toxin molecule. In this study, we investigate a new-designed multiple antigenic polypeptide for serotypes A and E (MAP/AE), containing two linear epitopes from each serotype. A synthetic gene was used to express the recombinant MAP/AE, in E. coli. Anti-MAP/AE antibodies were produced by injecting the purified MAP/AE to Balb/C mice. The interactivity of these antibodies and BoNT/A and E has been shown by ELISA. High titers of anti-MAP/AE antibodies were detected in mice sera. The anti-MAP/AE antibody titer is clearly detectable even at 25,600 dilution level. The anti-MAP/AE antibodies bound to both BoNT/A and BoNT/E holotoxin molecules. Neutralization ability of the antibodies for both toxin serotypes was determined, by an inhibitory ELISA assay. Results are suggestive of the feasibility of this epitope targeting strategy to develop novel multivalent recombinant vaccines against BoNTs. © 2010 Springer Science+Business Media B.V.