Antibodies against vaccinia virus do not neutralize extracellular enveloped virus but prevent virus release from infected cells and comet formation

Vanderplasschen, Alain; Hollinshead, M.; Smith, G. L.

doi:10.1099/0022-1317-78-8-2041

Article (Scientific journals)

Antibodies against vaccinia virus do not neutralize extracellular enveloped virus but prevent virus release from infected cells and comet formation

Vanderplasschen, Alain; Hollinshead, M.; Smith, G. L.

1997 • In Journal of General Virology, 78 (Pt 8), p. 2041-2048

Peer Reviewed verified by ORBi

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https://hdl.handle.net/2268/29174

DOI
10.1099/0022-1317-78-8-2041

PubMed
9267005

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Disciplines :

Veterinary medicine & animal health

Author, co-author :

Vanderplasschen, Alain ; Université de Liège - ULiège > Immunologie et vaccinologie

Hollinshead, M.

Smith, G. L.

Language :

English

Title :

Antibodies against vaccinia virus do not neutralize extracellular enveloped virus but prevent virus release from infected cells and comet formation

Publication date :

1997

Journal title :

Journal of General Virology

ISSN :

0022-1317

eISSN :

1465-2099

Publisher :

Society for General Microbiology, London, United Kingdom

Volume :

Issue :

Pt 8

Pages :

2041-2048

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 24 November 2009

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Bibliography

Alcamí, A. & Smith, G. L. (1996). A mechanism for the inhibition of fever by a virus. Proceedings of the National Academy of Sciences, USA 93, 11029-11034.
Appleyard, G. & Andrews, C. (1974). Neutralizing activities of antisera to poxvirus soluble antigens. Journal of General Virology 23, 197-200.
Appleyard, G., Hapel, A. J. & Boulter, E. A. (1971). An antigenic difference between intracellular and extracellular rabbitpox virus. Journal of General Virology 13, 9-17.
Blasco, R. & Moss, B. (1992). Role of cell-associated enveloped vaccinia virus in cell-to-cell spread. Journal of Virology 66, 4170-4179.
Boulter, E. A. (1969). Protection against poxviruses. Proceedings of the Royal Society of Medicine 62, 295-297.
Boulter, E. A. & Appleyard, G. (1973). Differences between extracellular and intracellular forms of poxviruses and their implications. Progress in Medical Virology 16, 86-108.
Cudmore, S., Cossart, P., Griffiths, G. & Way, M. (1995). Actin-based motility of vaccinia virus. Nature 378, 636-638.
Czerny, C. P. & Mahnel, H. (1990). Structural and functional analysis of orthopoxvirus epitopes with neutralizing monoclonal antibodies. Journal of General Virology 71, 2341-2352.
Doms, R. W., Blumenthal, R. & Moss, B. (1990). Fusion of intra- and extracellular forms of vaccinia virus with the cell membrane. Journal of Virology 64, 4884-4892.
Duncan, S. A. & Smith, G. L. (1992). Identification and characterization of an extracellular envelope glycoprotein affecting vaccinia virus egress. Journal of Virology 66, 1610-1621.
Engelstad, M. & Smith, G. L. (1993). The vaccinia virus 42 kDa envelope protein is required for envelopment and egress of extracellular virus and for virulence. Virology 194, 627-637.
Engelstad, M., Howard, S. T. & Smith, G. L. (1992). A constitutively expressed vaccinia gene encodes a 42-kDa glycoprotein related to complement control factors that forms part of the extracellular virus envelope. Virology 188, 801-810.
Essani, K. & Dales, S. (1979). Biogenesis of vaccinia: evidence for more than 100 polypeptides in the virion. Virology 95, 385-394.
Hanson, C. V., Riggs, J. L. & Lennette, E. H. (1978). Photochemical inactivation of DNA and RNA viruses by psoralen derivatives. Journal of General Virology 40, 345-358.
Hirt, P., Hiller, G. & Wittek, R. (1986). Localization and fine structure of a vaccinia virus gene encoding an envelope antigen. Journal of Virology 58, 757-764.
Ichihashi, Y. (1996). Extracellular enveloped vaccinia virus escapes neutralization. Virology 217, 478-485.
Ichihashi, Y., Matsumoto, S. & Dales, S. (1971). Biogenesis of pox viruses: role of A-type inclusions and host cell membranes in virus dissemination. Virology 46, 507-532.
Isaacs, S. N. & Moss, B. (1994). Inhibition of complement activation by vaccinia virus. In Viroceptors, Virokines and Related Immune Modulators Encoded by DNA Viruses, pp. 55-66. Edited by G. McFadden. Austin: R. G. Landes.
Isaacs, S. N., Wolffe, E. J., Payne, L. G. & Moss, B. (1992). Characterization of a vaccinia virus-encoded 42-kilodalton class I membrane glycoprotein component of the extracellular virus envelope. Journal of Virology 66, 7217-7224.
McIntosh, A. A. G. & Smith, G. L. (1996). Vaccinia virus glycoprotein A34R is required for infectivity of extracellular enveloped virus. Journal of Virology 70, 272-281.
Mackett, M., Smith, G. L. & Moss, B. (1985). The construction and characterization of vaccinia virus recombinants expressing foreign genes. In DNA Cloning: A Practical Approach, pp. 191-211. Edited by D. M. Glover. Oxford: IRL Press.
Mason, P. W., Rieder, E. & Baxt, B. (1994). RGD sequence of foot-and-mouth disease virus is essential for infecting cells via the natural receptor but can be bypassed by an antibody-dependent enhancement pathway. Proceedings of the National Academy of Sciences, USA 91, 1932-1936.
Parkinson, J. E. & Smith, G. L. (1994). Vaccinia virus gene A36R encodes a Mr 43-50K protein on the surface of extracellular enveloped virus. Virology 204, 376-390.
Payne, L. G. (1978). Polypeptide composition of extracellular enveloped vaccinia virus. Journal of Virology 27, 28-37.
Payne, L. G. (1979). Identification of the vaccinia hemagglutinin polypeptide from a cell system yielding large amounts of extracellular enveloped virus. Journal of Virology 31, 147-155.
Payne, L. G. (1980). Significance of extracellular enveloped virus in the in vitro and in vivo dissemination of vaccinia virus. Journal of General Virology 50, 89-100.
Payne, L. G. (1992). Characterization of vaccinia virus glycoproteins by monoclonal antibody preparations. Virology 187, 251-260.
Payne, L. G. & Kristensson, K. (1985). Extracellular release of enveloped vaccinia virus from mouse nasal epithelial cells in vivo. Journal of General Virology 66, 643-646.
Payne, L. G. & Norrby, E. (1976). Presence of haemagglutinin in the envelope of extracellular vaccinia virus particles. Journal of General Virology 32, 63-72.
Roos, N., Cyrklaff, M., Cudmore, S., Blasco, R., Krijnse-Locker, J. & Griffiths, G. (1996). A novel immunogold cryoelectron microscopic approach to investigate the structure of the intracellular and extracellular forms of vaccinia virus. EMBO Journal 15, 2343-2355.
Roper, R. L., Payne, L. G. & Moss, B. (1996). Extracellular vaccinia virus envelope glycoprotein encoded by the A33R gene. Journal of Virology 70, 3753-3762.
Sanderson, C. M., Parkinson, J. E., Hollinshead, M. & Smith, G. L. (1996). Overexpression of the vaccinia virus A38L integral membrane protein promotes Ca2+ influx into infected cells. Journal of Virology 70, 905-914.
Schmelz, M., Sodeik, B., Ericsson, M., Wolffe, E. J., Shida, H. G. H. & Griffiths, G. (1994). Assembly of vaccinia virus: the second wrapping cisterna is derived from the trans Golgi network. Journal of Virology 68, 130-147.
Shida, H. (1986). Nucleotide sequence of the vaccinia virus hemagglutinin gene. Virology 150, 451-462.
Tooze, J., Hollinshead, M., Reis, B., Radsak, K. & Kern, H. (1993). Progeny vaccinia viruses and human cytomegalovirus particles utilize early endosomal cisternae for their envelopes. European Journal of Cell Biology 60, 163-178.
Turner, G. S. & Squires, E. J. (1971). Inactivated smallpox vaccine: immunogenicity of inactivated intracellular and extracellular vaccinia virus. Journal of General Virology 13, 19-25.
Vanderplasschen, A. & Smith, G. L. (1997). An novel virus binding assay using confocal microscopy: demonstration that the intracellular and extracellular vaccinia virions bind to different cellular receptors. Journal of Virology 71, 4032-4041.
Wand, S., He, R., Patarapotikul, J., Innis, B. L. & Anderson, R. (1995). Antibody-enhanced binding of dengue-2 virus to human platelets. Virology 213, 254-257.
Wolffe, E. J., Isaacs, S. N. & Moss, B. (1993). Deletion of the vaccinia virus B5R gene encoding a 42-kiloDalton membrane glycoprotein inhibits extracellular virus envelope formation and dissemination. Journal of Virology 67, 4732-4741.