Abstract
Coronaviruses are associated with a wide variety of diseases of man and other animals. The importance of this group of viruses in both medical and economic terms has become increasingly evident since the First International Congress was held in Germany in 1980. The application of modern molecular biology and immunology has contributed to new insights into understanding the biology of the viruses and the pathogenesis of the diseases they produce. The number of investigators has also increased over the past several years as evidenced by this Congress which is thus far the largest ever held.
Chapter PDF
Similar content being viewed by others
Keywords
- Myelin Basic Protein
- Infectious Bronchitis Virus
- Immune Response Gene
- Temperature Sensitive Mutant
- Mouse Hepatitis Virus
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
References
Baudette, F.R. and Hudson, C.B. New recognized Poultry disease. North American Vet. 1933; 14: 50–54.
Baudette, F. R. and Hudson, C. B. Cultivation of the virus of infectious bronchitis. J. Am. Vet. Med. Assoc. 1937; 90: 51–60.
Gledhill, A. W. and Andrewes, C. H. A hepatitis virus of mice. Brit. J. Exp. Path. 1951; 32: 559–568.
Gledhill, A. W., Dick, G.W.A. and Andrewes, C. H. Production of hepatitis in mice by the combined action of two filterable agents. Lancet 1952; 2: 509–511.
Gledhill, A. W. and Niven, J.S.F. Latent virus as exemplified by mouse hepatitis virus (MHV). Vet. Rev. Annot. 1955; 1: 82–90.
Nelson, J. B. Acute hepatitis associated with mouse leukemia. I. Pathological features and transmission of the disease. J. Exp. Med. 1952; 96: 293–302.
Cheever, F. S., Daniels, J. B., Pappenheiner, A. M. and Bailey, O.T. A murine virus (JHM) causing disseminated encephalomyelitis with extensive destruction of myelin. I. Isolation and biological properties of the virus. J. Exp. Med. 1949; 90: 181–194.
Bailey, O. T., Pappenheimer, A. M., Cheever, F. S. and Daniels, J. B. A murine virus (JHM) causing disseminated encephalomyelitis with extensive destruction of myelin. II. Pathology. J. Exp. Med. 1949; 90: 195–212.
Niven, J.S.F., Gledhill, A. W., Dick, G.W.A. and Andrewes, C. H. Further light on mouse hepatitis. Lancet 1952; 2: 1061.
Hartley, J.W., Rowe, W. P., Bloom, H. H. and Turner, H. C. Antibodies to mouse hepatitis viruses in human sera. Proc. Soc. Exp. Biol. Med. 1964; 115: 414–418.
Tyrrell, D.A.J. and Bynoe, M. L. Cultivation of a novel type of commoncold virus in organ cultures. Brit. Med. J. 1965; 1: 1467–1470.
Hamre, D. and Procknow, J.J. A new virus isolated from the human respiratory tract. Proc. Soc. Exp. Biol. Med. 1966; 121: 190–193.
McIntosh, K., Kapikian, A.Z., Hardison, K.A., Hartley, J.W. and Chanock, R.M. Antigenic relationships among coronaviruses of man and between human and animal coronaviruses. 3. Immunol. 1969; 102: 1109–1118.
Tyrrell, D.A.J., Almedia, J.D., Berry, D.M., Cunningham, C.H., Hamre, D., Hofstad, M.S., Malluci, L. and McIntosh, K. Coronavirus. Nature 1968; 220: 650.
Sturman, L.S. and Holmes, K.V. The Molecular biology of coronaviruses. Adv. Virus Res. 1983; 28: 35–112.
Pappenheimer, A.W. Pathology of infection with JHM virus. J. Natl. Cancer Inst. 1958; 20: 879–891.
Weiner, L.P. Pathogenesis of demyelination induced by a Mouse Hepatitis Virus JHM Virus). Arch. Neurol. 1973; 28: 298–303.
Lampert, P.W., Sims, J.K., Kniazeff, A.J. Mechanism of demyelination in JHM virus encephalomyelitis. Electron microscopic studies. Acta Neuropath. 1973; 24: 76–85.
Powell, H.C. and Lampert, P.W. Oligodendrocytes and their myelinplasma membrane connections in JHM Mouse Hepatitis virus encephalomyelitis. Laboratory Inves. 1975; 33: 440–445.
Herndon, R.M., Griffin, D.E., McCormick, U. and Weiner, L.P. Mouse hepatitis virus-induced recurrent demyelination. Arch. Neurology 1975; 32: 32–35.
Weiner, L.P. and Stohlman, S.A. Viral models of demyelination. Neurology 1978; 28: 111–114.
Robb, J.A. and Bond, C.W. Coronaviridae. 1979; 14: 193–247.
Stohlman, S.A., Sakaguchi, A.Y. and Weiner, L.P. Characterization of the cold-sensitive murine hepatitis virus mutants rescued from latentlyinfected cells by cell fusion. Virology 1979; 98: 448–455.
Lucas, A., Coulter, M., Anderson, R. Dales, S. and Flintoff, W. In vivo and in vitro models of demyelinating diseases: persistence and host-regulated thermosensitivity in cells of neural derivation infected with mouse hepatitis and measles viruses. Virology 1978; 88: 325–337.
Robb, J.A., Bond, C.W. and Leibowitz, J.L. Pathogenic murine coronaviruses. III. Biological and biochemical characterization of temperature-sensitive mutants of JHMV. Virology 1979; 91: 385–399.
Haspel, M.V., Lampert, P.W. and Oldstone, M.B. Temperature-sensitive mutants of mouse hepatitis virus produce a high incidence of demyelination. Proc. Natl. Acad. Sci. USA 1978; 75: 4033–4036.
Hirano, N., Fujiwara, K. and Matumoto, M. Mouse hepatitis virus (MHV-2): Plaque assay and propagation in mouse cell line DBT cells. Jap. J. Microbiol. 1976; 20: 219–225.
Bang, F.B. and Warwick, A. Macrophages and mouse hepatitis. Virology 1959; 9: 715–717.
Collins, A.R., Tunison, L.A. and Knobler, R.L. Mouse hepatitis Virus type 4 infection of primary glial cultures from genetically susceptible and resistent mice. Infect. and Immun. 1983; 40: 1192–1197.
Knobler, R.L., Taylor, B.A., Wooddell, M.K., Beamer, W.G. and Olstone, M.B.A. Host genetic control of mouse hepatitis virus type-4 (JHM strain) replication. II. The gene locus for susceptibility is linked to Syp-2 locus on mouse chromosome 7. Expl. Clin. Immunogenet. 1984; 1: 217–222.
Stohlman, S.A. and Frelinger, J.A. Resistance to fatal central nervous system disease by mouse hepatitis virus, strain JHM. I. Genetic analysis. Immunogenetics 1978; 6: 277–281.
Sorenson, O., Percy, D. and Dales, S. In vivo and in vitro models of demyelinating diseases III. JHM virus infection of rats. Arch. Neurol. 1980; 37: 478–484.
Koga, M., Wege, H. and ter Meulen, V. Sequence of murine coronavirus JHM induced neuropathological changes in rats. Neuropath. Appl. Neurobiology 1984; 10: 173–184.
Wege, H., Koga, M., Watanabe, R., Nagushima, K. and ter Meulen, V. Neurovirulence of murine coronavirus JHM temperature sensitive mutants in rats. Infection and Immunity 1983; 39: 1316–1324.
Parham, D., Tereba, A., Talbot, P.J. Jackson, D.P. and Morris, V.L. Analysis of JHM central nervous system infections in rats. Arch. Neurol. 1986; 43: 702–708.
Watanabe, R., Wege, H. and ter Meulen, V. Adoptive transfer of EAE-like lesions from rats with coronavirus-induced demyelinating encephalomyelitis. Nature 1983; 305: 150-153.
Herndon, R.M., Price, D.L. and Weiner, L.P. Regeneration of oligodendroglia during recovery from demyelinating disease. Science 1977; 195: 693–694.
Kristensson, K., Holmes, K.V., Duchala, C.S. Zeller, N.K., Lazzarini, R.A. and Dubois-Dalcq, M. Increased levels of myelin basic protein transcripts in virus-induced demyelination. Nature 1986; 322: 544–547.
Mahy, B.W.J. Coronavirus come of age. Nature 1980; 288: 338–536.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1987 Plenum Press, New York
About this chapter
Cite this chapter
Weiner, L.P. (1987). Coronaviruses: A Historical Perspective. In: Lai, M.M.C., Stohlman, S.A. (eds) Coronaviruses. Advances in Experimental Medicine and Biology, vol 218. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-1280-2_1
Download citation
DOI: https://doi.org/10.1007/978-1-4684-1280-2_1
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4684-1282-6
Online ISBN: 978-1-4684-1280-2
eBook Packages: Springer Book Archive