The current live attenuated vaccines induce a low VNAb titre in v

The current live attenuated vaccines induce a low VNAb titre in vaccinates after a primary vaccination course suggesting cell-mediated immunity plays an important role in clearance of AHSV infection in horses vaccinated with live attenuated or canarypox VP2/VP5 vaccines [6], [14] and [21]. In the mouse model both cell-mediated and VNAb responses were stimulated by MVA-VP2 vaccination, however SB203580 ic50 passive transfer experiments have shown that humoral immunity plays a critical role in protection against AHSV [12] and [22]. In the present study,

MVA-VP2 vaccination induced a relatively high VNAb titre compared to that induced by existing live attenuated vaccines, but cell-mediated immune responses have not yet been measured. In this study we have detected the presence of viral RNA, though at lower levels than in the control animals, in non-infectious blood samples from the vaccinated horses for up to day 21 post-challenge. The high virus challenge dose (107.4 per horse) given by the intravenous route, the natural capacity of AHSV to bind erythrocytes [23] and

the high sensitivity of RT-PCR techniques could explain the presence of viral RNA in the non-infectious blood of vaccinated horses. This is consistent with the findings obtained during the development of an RT-PCR diagnostic assay of AHSV in which viral RNA was detected from the blood of horses inoculated intravenously with 105.5 TCID50/ml up to day 97 post-infection [24]. It is very Alisertib difficult to discern from our data whether AHSV RNA in the vaccinates was a result of viral replication in the host or not. Analysis of the antibody responses by the virus neutralisation test and by the VP7 ELISA test showed more than a four-fold increase in VNAb titre and Metalloexopeptidase an increase in VP7 ELISA antibody levels in

paired serum samples collected at day 34 (challenge day) and day 62. This could be an indication of a low level of viral replication in the vaccinates but this could also be the result of an anamnestic response of immune animals to re-exposure to an AHSV antigenic stimulus. Alternatively, virus particles neutralised by serum antibodies, could still be circulating in the vaccinates and could have been the source of viral RNA detected by the RT-PCR assay. Further work is needed to elucidate whether MVA-VP2 vaccination induces a complete sterile immunity but from the results of our study this immune response was sufficient to abrogate AHSV infectivity and to prevent any clinical disease and pyrexia in horses challenged with a high dose of AHSV. This study has demonstrated that MVA vaccines expressing VP2 alone are capable of inducing protective immunity, showing that co-expression of VP5 or other capsid proteins is not essential for the induction of a protective response.

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