DNA prime-protein boost strategy with replicase-based DNA vaccine against foot-and-mouth disease in bovine calves

The limited efficacy of DNA vaccines against foot-and-mouth disease (FMD) in cattle and other natural hosts has prompted a search for a more effective vaccination regimen. In this study we tested a DNA prime-protein boost vaccination strategy against FMD in bovine calves. We used purified recombinant FMDV specific multi-epitope protein (rMEG990) and an optimized sindbis virus replicase-based DNA vaccine expressing this protein (pSinCMV-Vac-MEG990). We demonstrate that vaccination with a low dose of pSinCMV-Vac-MEG990 (10 μg/animal) and subsequently boosting with rMEG990 resulted in induction of neutralizing antibodies, IFN-γ production and protection against homologous virus challenge. However, vaccination with a high dose of pSinCMV-Vac-MEG990 (100 μg/animal) and boosting with rMEG990 resulted in significantly lower immune responses and more severity to the challenge test. Additionally, we show that the post-vaccinal IFN-γ levels in animals correlated positively to their protection against FMDV challenge. These findings suggest that a replicase-based DNA vaccine in proper prime-boost combination may offer an efficient vaccine strategy against FMDV and that IFN-γ could be used as an additional immune parameter to predict protection against FMDV infection.