VP7(T13) is an immuno-dominant orbivirus-species/serogroup-specific antigen [51], [60] and [61]. Antibodies to VP7 can neutralise the infectivity of BTV core-particles, but do not significantly neutralise intact virus particles [62]. The incorporation of baculovirus-expressed VP7 in previously reported vaccination studies using VP2 and VP5, also failed to enhance NAb
responses in sheep [43]. However, vaccination with BTV-VP7 has been shown to induce a partially-protective Selleck SB203580 cytotoxic T-cell response that may reduce viraemia [63]. Capripoxvirus expressing VP7 was shown to confer cross-protection [51]. Although vaccination with baculovirus-expressed BTV core-like-particles (CLP – containing VP3 and VP7) did not prevent clinical signs of the disease, it did reduce their severity [44]. The addition of expressed VP7 to vaccination antigens (with VP5Δ1–100 and soluble domains of VP2) failed to increase neutralising antibody titres (against BTV-4) and failed to protect IFNAR−/− mice from lethal challenge with BTV-8. Regardless of the antigen combination which we Entinostat used, there was no protection from the heterologous BTV-8 lethal challenge. These results show that the response to immunisations is serotype-specific and that VP2 is the main protective component in the three combinations of antigens. The results presented show that soluble BTV-VP2 domains and VP5 can be expressed in
bacteria, suggesting that they adopt a native conformation/fold in this system. The aim of this study was to assess bacterially-derived BTV structural-proteins as candidates for a DIVA-compatible subunit-vaccination-strategy, using Balb/c mice and the well-established BTV animal-model, IFNAR−/− mice. DIVA-compatible BTV vaccines could be based on a subset of the viral proteins, with detection of antibodies to the remaining protein(s) as surveillance markers for previous infections. Our results demonstrate potential for a bacterial-expressed BTV-subunit DIVA vaccine, based principally
on VP2 and VP5. The exclusion of VP7, which does not seem to influence protection, provides a mean for DIVA. The two expressed VP2 domains, VP2D1 and VP2D2 and combined on equimolar basis, generated high titres of neutralising antibodies with similar titres in both Balb/c and IFNAR−/−. Although a transient viraemia was observed in mice immunised with VP2D1 + VP2D2, post-challenge with BTV-4, this was rapidly cleared and they survived without signs of infection throughout the experiment. This indicates that soluble bacterial-expressed antigens are protective and do not require more complex eukaryotic expression systems. The use of bacterial-expressed protein antigens, could provide a safe and scalable alternative to live-attenuated BTV vaccines. Bacterial expression could represent an alternative to inactivated vaccines, particularly if viruses prove to be difficult to propagate in cell culture (like BTV-25 [7]).