Summary
Using32P-labelled NDV at various attachment multiplicities of infection the respective quantities of both eluted and cell-associated virus after one hour period of incubation at 37° C were determined, the virus attachment being carried out at 4° C. It turned out to be impossible to separate directly the fraction of cell-associated virus into the fractions of penetrating and cell surface-bound virus by means of the treatment of the cell monolayer with 8m solution of urea. An approach consisting in the consideration of certain mathematical models made it possible to estimate penetrating virus as a fraction of the whole quantity of the cell-associated virus remaining upon the cell surface after the incubation at 37° C. The experimental data turned out to be compatible with the hypothesis based on the stochastic nature of the virus penetration and elution processes and the uniformity of both virus population and cell monolayer surface properties with regard to virus penetration and elution.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abodeely, R. A., L. A. Lawson, andC. C. Randall: Morphology and entry of enveloped and deenveloped equine abortion (herpes) virus. J. Virol.5, 513 (1970).
Adams, W. R., andA. M. Prince: An electron microscopic study of incomplete virus formation: infection of Ehrlich ascites tumor cells with ‘chick embryo-adapted’ NDV. J. exp. Med.106, 616 (1957).
Allison, A. C., andR. C. Valentine: Virus particle adsorption. II. Adsorption of vaccinia and fowl plague viruses to cells in suspension. Biochim. biophys. Acta (Amst.)40, 393 (1960a).
Allison, A. C., andR. C. Valentine: Virus particle adsorption. III. Adsorption of viruses by cell monolayers and effects of some variables on adsorption. Biochim. biophys. Acta (Amst.)40, 400 (1960b).
Barry, R. D.: Factors which affect the release of Newcastle disease and Sendai viruses from infected allantoic cells. J. gen. Microbiol.39, 229 (1965).
Chardonnet, Y., andS. Dales: Early events in the interaction of adenoviruses with HeLa cells. I. Penetration of type 5 and intracellular release of the DNA genome. Virology40, 462 (1970a).
Chardonett, Y., andS. Dales: Early events in the interaction of adenoviruses with HeLa cells. II. Comparative observations on the penetration of types 1, 5, 7, and 12. Virology40, 478 (1970b).
Cohen, A.: Mechanism of cell infection. I. Virus attachment and penetration. In: Mechanisms of Virus Infection. (W. Smith, ed.), p. 135. New York: Academic Press, 1963.
Crowell, R. L.: Specific cell-surface alteration by enteroviruses as reflected by viral-attachment interference. J. Bact.91, 198 (1966).
Dales, S.: An electron microscopic study of the early association between two mammalian viruses and their hosts. J. Cell Biol.13, 303 (1962).
Dales, S.: The uptake and development of vaccinia virus in strain L cells followed with labelled viral DNA. J. Cell Biol.18, 51 (1963).
Dales, S.: Penetration of animal viruses into cells. Progr. med. Virol.7, 1 (1965).
Dales, S., andP. W. Choppin: Attachment and penetration of influenza virus. Virology18, 489 (1962).
Dales, S., andH. Silverberg: Viropexis of herpes simplex virus by HeLa cells. Virology37, 475 (1969).
Dales, S., andL. Siminovitch: The development of vaccinia virus in Earle's L strain cell as examined by electron microscopy. J. Biophys. biochem. Cytol.10, 473 (1961).
Dourmashkin, R. R., andD. A. J. Tyrrell: Attachment of two myxoviruses to ciliated epithelial cells. J. gen. Virol.9, 77 (1970).
Dunnebacke, T. H., J. D. Levinthal, andR. C. Williams: Entry and release of poliovirus as observed by electron microscopy of cultured cells. J. Virol.4, 505 (1969).
Fazekas de St. Groth, S.: Viropexis. The mechanism of influenza virus infection. Nature (Lond.)162, 294 (1948).
Fogh, J.: Relation between multiplicity of exposure adsorption and cytopathogenic effect of poliomyelitis virus in monkey kidney tissue cultures. Virology1, 324 (1955).
Heine, J. W., andC. A. Schneitman: Fusion of vesicular stomatitis virus with the cytoplasmic membrane of L cells. J. Virol.3, 619 (1969).
Heine, J. W., andC. A. Schneitman: Entry of vesicular stomatitis virus into L cells. J. Virol.8, 786 (1971).
Henle, W.: Studies on host-virus. Interactions in the chick-embryo-influenza virus system. I. Adsorption and recovery of seed virus. J. exp. Med.90, 1 (1949).
Hirst, G. K.: Adsorption of influenza virus on cells of the respiratory tract. J. exp. Med.78, 99 (1943).
Holland, J. J., andB. H. Hoyer: Early stages of enterovirus infection. Cold Spr. Harb. Symp. quant. Biol.27, 101 (1962).
Holmes, I. H., andD. H. Watson: An electron microscope study on the attachment and penetration of herpesvirus in BHK 21 cells. Virology21, 112 (1963).
Hoyle, L.: The entry of myxovirus into the cell. Cold Spr. Harb. Symp. quant. Biol.27, 113 (1962).
Hoyle, L., andB. N. Finter: The use of influenza virus labelled with radioactive sulfur in studies of the early stages of the interaction of virus with the host cell. J. Hyg. (Lond.)55, 290 (1957).
Hummeler, K., N. Tomassini, andF. Sokol: Morphological aspects of the uptake of SV40 by permissive cells. J. Virol.6, 87 (1970).
Hummeler, K., N. E. Tomassini, andB. Zajac: Early events in herpes simplex virus infection: a radioautographic study. J. Virol.4, 67 (1969).
Isaacs, A., andH. B. Donald: Particle counts of haemagglutinating viruses. J. gen. Microbiol.12, 241 (1955).
Ishida, H., andW. W. Ackermann: Growth characteristics of influenza virus. Properties of the initial cell-virus complex. J. exp. Med.104, 501 (1956).
Kingsbury, D. W.: Newcastle disease virus RNA. I. Isolation and preliminary characterization of RNA from virus particles. J. molec. Biol.18, 195 (1966).
Lipkind, M. A., andI. V. Tsvetkova: Intracellular synthesis of myxovirus neuraminidase in chick embryo cell monolayer culture. I. Neuraminidase activity, hemagglutinin synthesis, and content of cell-bound sialic acid in NDV-infected cells. J. Virol.1, 327 (1967).
Lipkind, M. A., andI. V. Tsvetkova: Disappearance of neuraminidase and hemagglutinin activities in NDV-infected chick embryo cell monolayer culture treated with inhibitors of protein synthesis. Arch. ges. Virusforsch.35, 303 (1971).
Lonberg-Holm, K., andB. D. Korant: Early interaction of rhinoviruses with host cells. J. Virol.9, 29 (1972).
Meiselman, N., A. Kohn, andD. Danon: Electron microscopic study of penetration of Newcastle disease virus into cells leading to formation of polycaryocytes. J. Cell Sci.2, 71 (1967).
Miyamoto, K., andR. V. Gilden: Electron microscopic studies of tumor viruses. I. Entry of murine leukemia virus into mouse embryo fibroblasts. J. Virol.7, 395 (1971).
Morgan, C., andC. Howe: Structure and development of viruses as observed in the electron microscope. IX. Entry of parainfluenza I (Sendai) virus. J. Virol.2, 1122 (1968).
Morgan, C., andH. M. Rose: Structure and development of viruses as observed in the electron microscope. VIII. Entry of influenza virus. J. Virol.2, 925 (1968).
Morgan, C., H. M. Rose, andB. Mednis: Electron microscopy of herpes simplex virus. I. Entry. J. Virol.2, 507 (1968).
Morgan, C., H. S. Rosenkranz, andB. Mednis: Structure and development of viruses as observed in the electron microscope. X. Entry and uncoating of adenovirus. J. Virol.4, 777 (1969).
Mussgay, M., andJ. Weibel: Early stages of infection with NDV as revealed by electron microscopy. Virology16, 506 (1962).
Silverstein, S. C., andP. I. Marcus: Early stages of Newcastle disease virus—HeLa cell interaction: An electron microscopic study. Virology23, 370 (1964).
Simpson, R. W., R. E. Hauser, andS. Dales: Viropexis of vesicular stomatitis virus by L cells. Virology37, 285 (1969).
Stinski, M. F., andC. H. Cunningham: Antibody-neutralized avian infectious bronchitis virus in chicken embryo cells: entry and degradation. J. gen. Virol.8, 173 (1970).
Sugiura, A., andE. D. Kilbourne: Genetic studies of influenza viruses. II. Plaque formation by influenza viruses in a clone of a variant human hetroploid cell line. Virology26, 478 (1965).
Tučkova, E., andV. Vonka: Interactions between an influenza A2 virus and rhesus monkey kidney cells. Arch. ges. Virusforsch.30, 181 (1970).
Urbakh, V. Yu., A. Ya. Raikhrud, M. A. Lipkind, andV. M. Zhdanov: Certain quantitative regularities of the penetration of virus inside the cell. Vop. Virus. No.1, 109 (1970) (in Russ.).
Varich, N. L., M. A. Lipkind, andN. V. Kaverin: Comparative studies on the effectiveness of purification of NDV by chromatography on DEAE-cellulose and ultracentrifugation in potassium tartrate solutions. Vop. Virus. No.1, 27 (1970) (in Russ.).
Wecker, E., undW. Schäfer: Studien mit32P-markiertem Virus der klassischen Geflügelpest. I. Mitt.: Untersuchungen über das Verhalten des Virus beim Eindringen in die Wirtszelle. Z. Naturforsch.12b, 483 (1957).
Zee, Y. C., andL. Talens: Entry of infectious bovine rhinotracheitis virus into cells. J. gen. Virol.11, 59 (1971).
Zhdanov, V. M., andA. G. Bukrinskaya: Studies on the initial stage of virus-cell interaction. Acta virol.6, 105 (1962).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lipkind, M.A., Urbakh, V.Y. Quantitative studies on the dependence of NDV penetration and elution on the attachment multiplicity. Archiv f Virusforschung 44, 1–13 (1974). https://doi.org/10.1007/BF01242175
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF01242175