Immune and histopathological responses in animals vaccinated with recombinant vaccinia viruses that express individual genes of human respiratory syncytial virus.

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J Virol. 1987 December; 61(12): 3855-3861

Immune and histopathological responses in animals vaccinated with recombinant vaccinia viruses that express individual genes of human respiratory syncytial virus.

E J Stott, G Taylor, L A Ball, K Anderson, K K Young, A M King and G W Wertz

Department of Microbiology and Immunology, University of North Carolina, Chapel Hill 27514.

ABSTRACT

Previous reports have established that vaccinia virus (VV) recombinantsexpressing G, F, or N protein of respiratory syncytial (RS)virus protect small animals against intranasal challenge withlive RS virus. This work demonstrates that a variety of parametersaffect the protection induced by recombinant viruses. The routeof vaccination, the subtype of challenge virus, and the speciesused influenced the antibody titers and extent of protection.During these studies, observations were also made on the subclassof antibody generated, and pulmonary histopathological changesinduced by challenge after vaccination were noted. The effectof route of inoculation on host response was examined by vaccinatingmice intranasally, intraperitoneally, or by scarification witha recombinant VV expressing the RS virus G glycoprotein. Intranasalvaccination induced 25-fold-higher titers of antibody to RSvirus in the lung than the intraperitoneal route did, but bothroutes resulted in complete suppression of virus replicationafter intranasal challenge 21 days after vaccination. Scarificationwas a less effective method of vaccination. The antibody inducedby recombinant VV in mice was mostly immunoglobulin G2a (IgG2a)with some IgG2b. No antibody to RS virus was detected in theIgA, IgM, IgG1, or IgG3 subclass irrespective of the vaccinationroute. The G and F glycoproteins were shown to elicit similarsubclasses of antibody. However, animals vaccinated with theG and F vectors differed strikingly in their response to challengeby heterologous virus. Mice or cotton rats vaccinated with recombinantVV carrying the G gene of RS virus were protected against challengeonly with homologous subtype A virus. Vaccination with a recombinantVV expressing the F glycoprotein induced protection againstboth homologous and heterologous subtype B virus challenge.The protection induced in mice was greater than that detectedin cotton rats, indicating that the host may also affect immunity.Finally, this report describes histological examination of mouselungs after vaccination and challenge. Vaccinated mice thatwere subsequently challenged had significantly greater lunglesion scores than unvaccinated challenged mice. The lesionswere primarily peribronchiolar and perivascular infiltrationsof polymorphonuclear cells and lymphocytes. Further work willestablish whether these pulmonary changes are a desirable immuneresponse to virus invasion or a potential immunopathogenic hazard.The results have important implications for planning a strategyof vaccination against RS virus and emphasize potential dangersthat may attend the use of recombinant VV as vaccines.

J Virol. 1987 December; 61(12): 3855-3861

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