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Peer-reviewed veterinary case report

Feline calicivirus found in vaccinated cats and gene analysis

By Ohe, K et al.·Published in Veterinary research communications·2006·Department of Microbiology·View original on PubMed

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Original publication title: Detection of feline calicivirus (FCV) from vaccinated cats and phylogenetic analysis of its capsid genes.

Species:
cat

Plain-English summary

A group of vaccinated cats developed symptoms of feline calicivirus (FCV) infection, raising concerns about the effectiveness of their vaccine. Researchers found that while some strains of the virus matched the vaccine, others did not, suggesting that the vaccine may not protect against all variants of the virus. In particular, one strain showed a mutation that could weaken the vaccine's ability to prevent infection. This indicates that the current vaccine might need to be reassessed to ensure it provides adequate protection against the circulating strains of FCV.

People also search for: cat calicivirus symptoms · vaccinated cat getting sick · feline calicivirus vaccine effectiveness

Abstract

We analysed genogroups of four feline calcivirus (FCV) isolates (FCV-S, H10, Ao198-1 and ML89) obtained from cats that experienced FCV infection after having been vaccinated against FCV. New PCR primer sets (8F/8R, Ao-S/Ao-A, cp-S/cp-A) were also designed, since the conventional Seal primer failed to amplify the target sequences in two samples. The genogroups of the four isolates as well as eight global and 17 domestic strains were determined by phylogenetic analysis of their amino acid sequences. One out of the four strains (25%) isolated in this study, H10, was grouped into genogroup I, along with the vaccine strains F9 and FCV-255. The other three isolates (75%) belonged to genogroup II. Thus, there were more isolates in genogroup II than in genogroup I. However, the antibody values of the four isolates against cat anti-F9 antisera were significantly decreased. There may be no relationship between the neutralizing antibody titre and genogroup. Amino acid sequence alignment of the four isolates showed that only a single amino acid in region C, which is involved in neutralization epitopes, was different in ML89 strain from that of F9. The other three strains, H10, Ao198-1 and FCV-B, shared the same amino acid sequence with F9. Alignment of amino acids for linear epitopes in the F9 strain, which are located at regions D and E, showed variations in 5' hypervariable region (HVR) of E, whereas D and conE had only synonymous substitutions i.e. no change in the amino acid sequence. This mutation in 5' HVR of region E suggested a vaccine breakdown, as the region is known to be essential for antigenicity. The genogroup II FCV is likely to be the cause of the FCV infection in this study, while the vaccine strains belong to genogroup I. Thus, the existing vaccine may need reevaluation for its effectiveness.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/16437305/