Preliminary studies on feline coronavirus distribution in naturally and experimentally infected cats

I KISS; S KECSKEMÉTI; J TANYI; B KLINGEBORN; S BELÁK

doi:10.1053/rvsc.1999.0368

. 2002 May 25;68(3):237–242. doi: 10.1053/rvsc.1999.0368

Preliminary studies on feline coronavirus distribution in naturally and experimentally infected cats

I KISS ^a, S KECSKEMÉTI ^a, J TANYI ^a, B KLINGEBORN ^b, S BELÁK ^b,^f1

PMCID: PMC7133751 PMID: 10877969

Abstract

The shedding, tissue distribution and quasispecies composition of feline coronaviruses were studied in naturally and experimentally infected cats. The infection remained subclinical, but the majority of the animals shed the virus via faeces throughout the experiment. Sequences corresponding to the viral nucleocapsid region were amplified by reverse-transcription polymerase chain reaction from the cortex, dura mater, pancreas, lungs, third eyelid, and the heart muscle in four cases. Interestingly, the ORF7b viral region – a supposed virulence factor – was detected in fewer organs, raising the possibility that this region can be affected by deletions during virus replication in vivo.

It is demonstrated that the composition of the viral quasispecies differs between organs, and that genomic regions with different functions undergo distinct processes of selection, which should be considered during the evolution of feline coronaviruses.

References

REFERENCES

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[RF1] 1.BARIC R.S., FU K.F., SCHAAD M.C., STOHLMAN S.A. Establishing a genetic recombination map of murine coronavirus strain A59 complementation groups. Virology. 1990;177:646–656. doi: 10.1016/0042-6822(90)90530-5. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF2] 2.BELÁK S., BALLAGI-PORDÁNY A. Experiences on the application of the polymerase chain reaction in a diagnostic laboratory. Molecular and Cellular Probes. 1993;7:241–248. doi: 10.1006/mcpr.1993.1035. [DOI] [PubMed] [Google Scholar]

[RF3] 3.BOOM R., SOL C.J.A., SALIMANS M.M.M., JANSEN C.L., WERTHEIM-VAN DILLEN P.M.E., VAN DER NOOREDAA J. Rapid and simple method for purification of nucleic acid. Journal of Clinical Microbiology. 1990;28:495–503. doi: 10.1128/jcm.28.3.495-503.1990. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF4] 4.CHEUNG R.C., MATSUI S., GREENBERG H. Rapid and sensitive method for detection of hepatitis C virus RNA by using silica particles. Journal of Clinical Microbiology. 1994;32:2593–2597. doi: 10.1128/jcm.32.10.2593-2597.1994. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF5] 5.DE GROOT R.J., HORZINEK M.C. Feline infectious peritonitis. In: Siddell S.G., editor. The Coronaviridae. Plenum Press; New York, N.Y: 1995. pp. 293–315. [Google Scholar]

[RF6] 6.DE GROOT R.J., TER HAAR R.J., HORZINEK M.C., VAN DER ZEIJST B.A. Intracellular RNAs of the feline infectious peritonitis virus strain 791146. Journal of General Virology. 1987;68:995–1002. doi: 10.1099/0022-1317-68-4-995. [DOI] [PubMed] [Google Scholar]

[RF7] 7.FEHR D., HOLZNAGEL E., BOLLA S., HAUSER B., HERREWEGH A.A., HORZINEK M.C., LUTZ H. Placebo-controlled evaluation of a modified life virus vaccine against feline infectious peritonitis: safety and efficacy under field conditions. Vaccine. 1997;15:1101–1109. doi: 10.1016/S0264-410X(97)00006-6. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF8] 8.FOLEY J.F., POLAND A., CARLSON J., PEDERSEN N.C. Risk factors for feline infectious peritonitis among cats in multiple-cat environments with endemic feline enteric coronavirus. Journal of the American Veterinary Medical Association. 1997;210:1313–1318. [PubMed] [Google Scholar]

[RF9] 9.FOLEY J.F., POLAND A., CARLSON J., PEDERSEN N.C. Patterns of feline coronavirus infection and fecal shedding from cats in multiple-cat environments. Journal of the American Veterinary Medical Association. 1997;210:1307–1312. [PubMed] [Google Scholar]

[RF10] 10.HARVEY C.J., LOPEZ J.W., HENDRICK M.J. An uncommon intestinal manifestation of feline infectious peritonitis: 26 cases (1986–1993) Journal of the American Veterinary Medical Association. 1996;209:1117–1120. [PubMed] [Google Scholar]

[RF11] 11.HERREWEGH A.A.P.M., VENNEMA H., HORZINEK M.C., ROTTIER P.J.M., DE GROOT R. The molecular genetics of feline coronaviruses: comparative sequence analysis of the ORF7a/7b transcription unit of different biotypes. Virology. 1995;212:631–662. doi: 10.1006/viro.1995.1520. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF12] 12.HERREWEGH A.A.P.M., MÄHLER M., HEDRICH H.J., HAAGMANS B.L., EGBERINK H.F., HORZINEK M.C., ROTTIER P.J.M., DE GROOT R. Persistence and evolution of feline coronavirus in a closed cat-breeding colony. Virology. 1997;234:349–363. doi: 10.1006/viro.1997.8663. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF13] 13.HERREWEGH A.A.P.M., SMEENK I., HORZINEK M.C., ROTTIER P.J.M., DE GROOT R. Feline coronavirus type II strains 79-1683 and 79-1146 originate from a double recombination between feline coronavirus type I and canine coronavirus. Journal of Virology. 1998;72:4508–4514. doi: 10.1128/jvi.72.5.4508-4514.1998. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF14] 14.HOHDATSU T., OKADA S., KOYAMA H. Characterization of monoclonal antibodies against feline infectious peritonitis virus type II and antigenic relationship between feline, porcine, and canine coronaviruses. Archives of Virology. 1991;117:85–95. doi: 10.1007/BF01310494. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF15] 15.HOHDATSU T., SASAMOTO T., OKADA S., KOYAMA H. Antigenic analysis of feline coronaviruses with monoclonal antibodies (Mabs): preparation of Mabs which discriminate between FIPV strain 79-1146 and FECV strain 79-1683. Veterinary Microbiology. 1991;28:13–24. doi: 10.1016/0378-1135(91)90096-X. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF16] 16.HOHDATSU T., OKADA S., ISHIZUKA Y., YAMADA H., KOYAMA H. The prevalence of types I and II feline coronavirus infections in cats. Journal of Veterinary Medical Science. 1992;54:557–562. doi: 10.1292/jvms.54.557. [DOI] [PubMed] [Google Scholar]

[RF17] 17.HOLLAND J.J., DE LATORRE J.C., STEINHAUER D.A. RNA virus populations as quasispecies. Current Topics in Microbiology and Immunology. 1992;176:1–20. doi: 10.1007/978-3-642-77011-1_1. [DOI] [PubMed] [Google Scholar]

[RF18] 18.LAI M.M.C. Recombination in large RNA viruses: Coronaviruses. Seminars in Virology. 1996;7:381–388. doi: 10.1006/smvy.1996.0046. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF19] 19.LÁZARO C., ESTIVILL X. Mutation analysis of genetic diseases by asymmetric-PCR SSCP and ethidium bromide staining: application to neurofibromatosis and cystic fibrosis. Molecular and Cellular Probes. 1992;6:357–359. doi: 10.1016/0890-8508(92)90027-u. [DOI] [PubMed] [Google Scholar]

[RF20] 20.LUYTJES W. Coronavirus gene expression: genome organization and protein expression. In: Siddell S.G., editor. The Coronaviridae. Plenum Press; New York, N.Y: 1995. pp. 33–49. [Google Scholar]

[RF21] 21.MAKINO S., KECK J.G., STOHLMAN S.A., LAI M.M.C. High-frequency RNA recombination of murine coronaviruses. Journal of Virology. 1986;57:729–739. doi: 10.1128/jvi.57.3.729-737.1986. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF22] 22.OLSEN C.W. A review of feline infectious peritonitis virus: molecular biology, immunopathogenesis, clinical aspects, and vaccination. Veterinary Microbiology. 1993;36:1–37. doi: 10.1016/0378-1135(93)90126-R. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF23] 23.PEDERSEN N.C. An overview of feline enteric coronavirus and infectious peritonitis virus infections. Feline Practice. 1987;23:7–22. [Google Scholar]

[RF24] 24.PEDERSEN N.C., BOYLE J.F., FLOYD K., FUDGE A., BARKER J. An enteric coronavirus infection of cats and its relationship to feline infectious peritonitis. American Journal of Veterinary Research. 1981;42:368–377. [PubMed] [Google Scholar]

[RF25] 25.POLAND A.M., VENNEMA H., FOLEY J.E., PEDERSEN N.C. Two related strains of feline infectious peritonitis virus isolated from immunocompromised cats infected with a feline enteric coronavirus. Journal of Clinical Microbiology. 1996;34:3180–3184. doi: 10.1128/jcm.34.12.3180-3184.1996. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF26] 26.VENNEMA H., DE GROOT R., HARBOUR D.A., DALDERUP M., GRUFFYDD-JONES T., HORZINEK M.C., SPAAN W.J.M. Early death after feline infectious peritonitis virus challenge due to recombinant vaccinia virus immunization. Journal of Virology. 1990;64:1407–1409. doi: 10.1128/jvi.64.3.1407-1409.1990. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF27] 27.VENNEMA H., DE GROOT R.J., HARBOUR D.A., HORZINEK M.C., SPAAN W.J. Primary structure of the membrane and nucleocapsid protein genes of feline infectious peritonitis virus and immunogenicity of recombinant vaccinia viruses in kittens. Virology. 1991;181:327–335. doi: 10.1016/0042-6822(91)90499-2. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF28] 28.VENNEMA H., ROSSEN W.A., WESSELING J., HORZINEK M.C., ROTTIER P.J.M. Genomic organization and expression of the 3′ end of the canine and feline enteric coronaviruses. Virology. 1992;191:134–140. doi: 10.1016/0042-6822(92)90174-N. [DOI] [PMC free article] [PubMed] [Google Scholar]

[RF29] 29.VENNEMA H., POLAND A., FOLEY J., PEDERSEN N.C. Feline infectious peritonitis viruses arise by mutation from endemic feline enteric coronaviruses. Virology. 1998;243:150–157. doi: 10.1006/viro.1998.9045. [DOI] [PMC free article] [PubMed] [Google Scholar]

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Preliminary studies on feline coronavirus distribution in naturally and experimentally infected cats

I KISS

S KECSKEMÉTI

J TANYI

B KLINGEBORN

S BELÁK

Abstract

References

REFERENCES

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PERMALINK

Preliminary studies on feline coronavirus distribution in naturally and experimentally infected cats

I KISS

S KECSKEMÉTI

J TANYI

B KLINGEBORN

S BELÁK

Abstract

References

REFERENCES

ACTIONS

PERMALINK

RESOURCES

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