The experiments described here were designed to build upon our initial findings that live and inactivated RABV vaccines expressing GP induced strong humoral immunity and conferred protection from both RABV and EBOV in mice [13]. The studies sought to support more thorough future investigation of immunity and protective efficacy in macaques, which
are believed to serve as the best animal model for study of filovirus hemorrhagic fever based on the similar disease presentation as observed NLG919 mouse for humans. The contribution of T-cell mediated immunity to protection from EBOV challenge in mice and macaques has been recently reviewed and appears to vary among the vaccine candidates [11] and [12]. The cellular immune response has been suggested to contribute to protection in mice for virus-like particle vaccines, but not for vesicular stomatitis virus based vaccines [29] and [30]. Recently, protection in macaques mediated by adenovirus vectored GP was attributed to CD8+ T-cells by depletion prior to challenge [10]. However, some Vismodegib manufacturer protective vaccines in macaques are not believed to induce strong cellular immunity [12]. Here, investigation of the T-cell response to the RVA-vectored GP vaccines was pursued for comparison
to other candidates. Both live and killed vaccines induced primary T-cell mediated responses as measured by interferon-γ ELISPOT with the response to RV-GP being the most robust. As a means to study the memory recall response in the absence of a BSL-4 facility, we used a vaccinia virus expressing EBOV GP as a surrogate challenge virus. Again, each vaccine candidate induced high levels of recalled GP-specific T-cells upon challenge, and a two dose regime of INAC-RV-GP was found to induce T-cells on par with RV-GP. As inactivated vaccines are commonly believed to be weak inducers of T-cell immunity, these
data were very encouraging, particularly, since we are focusing on INAC-RV-GP for human vaccine development. It is important to note that INAC-RV-GP is inactivated by the same method as the RABV vaccine currently used for humans and requires no adjuvant. These results indicate that both live and killed vaccines induce T cell responses indicating that each of our vaccination strategies either induces a potent humoral and cell mediated immune response. We next sought to further define the humoral immune response to our lead candidate for human use, INAC-RV-GP, by assaying two critical parameters: the ability to induce multivalent immunity and immunity in the presence of pre-existing RABV vaccine vector immunity. For epidemiological and commercial considerations, an effective filovirus vaccine will likely require induction of multivalent immunity to Ebola virus (Zaire), Sudan Ebola virus, and Marburg virus.