J D Ingersoll scite author profile

J D Ingersoll

3Publications

76Citation Statements Received

23Citation Statements Given

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Protection against feline infectious peritonitis by intranasal inoculation of a temperature-sensitive FIPV vaccine

Gerber

Ingersoll

Gast

et al. 1990

Vaccine

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Cats vaccinated intranasally (i.n.) with a temperature sensitive feline infectious peritonitis virus (ts-FIPV) vaccine were protected against an FIP-inducing challenge. Seventeen of 20 vaccinated cats (85%) survived a rigorous virulent FIPV challenge that caused FIP in 12 of 12 non-vaccinated cats (100%), 10 (83%) of which died. Intranasal vaccination stimulated serum IgG and serum and salivary IgA antibody responses (measured by ELISA), FIPV-neutralizing antibody (VN), and a cell-mediated immune (CMI) response as measured by lymphocyte proliferation. The serum antibody response to vaccination was not associated with protection. In fact, the IgG, IgA and VN titres were much higher in control cats than in vaccinated cats following challenge suggesting an immune-mediated pathogenesis. In contrast, stimulation of a mucosal IgA response to vaccination was related to protection. The in vitro proliferation of peripheral blood lymphocytes in response to virulent FIPV was observed in vaccinated cats, in vaccinated and challenged cats but not in non-vaccinated challenged cats.

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Characterization of a temperature sensitive feline infectious peritonitis coronavirus

Christianson¹,

Ingersoll²,

Landon³

et al. 1989

Archives of Virology

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The characteristics of a temperature sensitive feline infectious peritonitis virus (TS-FIPV) were examined. TS-FIPV, unlike its parent strain, DF2 wild type FIPV (WT-FIPV), propagated at 31 degrees C (permissive temperature) but not at 39 degrees C (nonpermissive temperature). This temperature preference of TS-FIPV was also demonstrated in cats by the ability of the virus to replicate only at the lower temperature in the upper respiratory tract and not at systemic sites where higher temperatures (38-39 degrees C) prevail. Viral structural proteins and RNA were synthesized at 39 degrees C but some undefined maturational defect prevented the formation of infectious TS-FIPV at its nonpermissive temperature. TS-FIPV was more thermolabile than WT-FIPV which indicated alterations in the structural proteins of TS-FIPV, and a difference in the envelope protein of the two viruses was revealed by Western blot analysis. Plaque assay characterization showed that TS-FIPV produced small plaques in comparison to the large plaques of WT-FIPV. These unique characteristics possessed by TS-FIPV may account for its nonvirulent nature and ability to stimulate protective immune responses in cats.

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Characterization of an Attenuated Temperature Sensitive Feline Infectious Peritonitis Vaccine Virus

Gerber¹,

Pfeiffer²,

Ingersoll³

et al. 1990

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J D Ingersoll

Protection against feline infectious peritonitis by intranasal inoculation of a temperature-sensitive FIPV vaccine

Characterization of a temperature sensitive feline infectious peritonitis coronavirus

Characterization of an Attenuated Temperature Sensitive Feline Infectious Peritonitis Vaccine Virus

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