Efficacy of inactivated whole-virus and subunit vaccines in preventing infection and disease caused by equine infectious anemia virus.

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J Virol. 1992 June; 66(6): 3398-3408

Efficacy of inactivated whole-virus and subunit vaccines in preventing infection and disease caused by equine infectious anemia virus.

C J Issel, D W Horohov, D F Lea, W V Adams Jr, S D Hagius, J M McManus, A C Allison and R C Montelaro

Department of Veterinary Science, Louisiana Agricultural Experiment Station, Baton Rouge.

ABSTRACT

We report here on a series of vaccine trials to evaluate theeffectiveness of an inactivated equine infectious anemia virus(EIAV) whole-virus vaccine and of a subunit vaccine enrichedin EIAV envelope glycoproteins. The inactivated vaccine protected14 of 15 immunized ponies from infection after challenge withat least 10(5) 50% tissue culture-infective doses of the homologousprototype strain of EIAV. In contrast, it failed to preventinfection in any of 15 immunized ponies that were challengedwith the heterologous PV strain. Levels of PV virus replicationand the development of disease, however, were significantlyreduced in 12 of the 15 ponies so challenged. The subunit vaccineprevented infection from homologous challenge in four of fourponies tested but failed to prevent infection in all four challengedwith the PV strain. Two of the four subunit vaccinates had moresevere symptoms of equine infectious anemia than nonimmunizedponies infected in parallel. Both vaccines stimulated EIAV-specificcell-mediated immunity. The in vitro lymphoproliferative responsewas shown to be mediated by T lymphocytes and appeared to beindistinguishable from that induced by EIAV infection. Significantdifferences were observed in the in vivo lymphocyte responsesfollowing challenge with the two virus strains. While peripheralblood mononuclear cells from the inactivated virus vaccinateswere equally stimulated by both the prototype and PV strains,the subunit vaccinates challenged with PV exhibited lower levelsof spontaneous proliferation and serine esterase activity. Thisdiminished cellular response to PV was correlated with moresevere clinical disease in the same ponies. These studies demonstratefor the first time that both an EIAV inactivated whole-virusvaccine and a viral envelope glycoprotein-based subunit vaccinecan provide protection against rigorous challenge levels ofhomologous virus but are unable to protect against similar challengelevels of a heterologous virus. Moreover, the data demonstratethat protection can be achieved in the absence of detectablelevels of virus-specific neutralizing antibody in the vaccinerecipients at the time of virus challenge. While vaccine-inducedvirus-specific cell-mediated immune responses were detected,their role in conferring protection was not obvious. Nevertheless,protection from disease appeared to be correlated with the inductionof high levels of serine esterase activity following challenge.A significant observation is that while the whole-virus vaccinewas usually capable of preventing or markedly moderating diseasein the PV-infected ponies, the subunit vaccine appeared to havea high potential to enhance the disease induced by PV infection.(ABSTRACTTRUNCATED AT 400 WORDS)

J Virol. 1992 June; 66(6): 3398-3408

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