Spike protein fusion peptide and feline coronavirus virulence

H.W. Chang, H.F. Egberink, R. Halpin, D.J. Spiro, P.J.M. Rottier

    Research output: Contribution to journalArticleAcademicpeer-review

    Abstract

    Coronaviruses are well known for their potential to change their host or tissue tropism, resulting in unpredictable new diseases and changes in pathogenicity; severe acute respiratory syndrome and feline coronaviruses, respectively, are the most recognized examples. Feline coronaviruses occur as 2 pathotypes: nonvirulent feline enteric coronaviruses (FECVs), which replicate in intestinal epithelium cells, and lethal feline infectious peritonitis viruses (FIPVs), which replicate in macrophages. Evidence indicates that FIPV originates from FECV by mutation, but consistent distinguishing differences have not been established. We sequenced the full genome of 11 viruses of each pathotype and then focused on the single most distinctive site by additionally sequencing hundreds of viruses in that region. As a result, we identified 2 alternative amino acid differences in the putative fusion peptide of the spike protein that together distinguish FIPV from FECV in >95% of cases. By these and perhaps other mutations, the virus apparently acquires its macrophage tropism and spreads systemically.
    Original languageEnglish
    Pages (from-to)1089-1095
    Number of pages7
    JournalEmerging Infectious Diseases
    Volume18(7)
    DOIs
    Publication statusPublished - 2012

    Keywords

    • virulence
    • pathogenesis
    • virus tropism
    • feline coronavirus
    • feline infectious peritonitis virus
    • FIPV
    • feline enteric coronavirus
    • FECV
    • sequence
    • mutation
    • diagnosis
    • viruses
    • coronaviruses
    • zoonose

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