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Journal of Virology, July 1999, p. 5826-5832, Vol. 73, No. 7
Department of
Pathology1 and Dana-Farber Cancer
Institute,4 Harvard Medical School, Boston,
Massachusetts 02115; Laboratory of Developmental Immunology,
Massachusetts General Hospital, Boston, Massachusetts
021142; and Department of Molecular
and Cellular Biology, Howard Hughes Medical Institute, Harvard
University, Cambridge, Massachusetts 021383
Received 28 January 1999/Accepted 12 April 1999
Variations in the polyomavirus major capsid protein VP1 underlie
important biological differences between highly pathogenic large-plaque
and relatively nonpathogenic small-plaque strains. These polymorphisms
constitute major determinants of virus spread in mice and also dictate
previously recognized strain differences in sialyloligosaccharide
binding. X-ray crystallographic studies have shown that these
determinants affect binding to the sialic acids. Here we report results
of further experiments designed to test the importance of specific
contacts between VP1 and the carbohydrate moieties of the receptor.
With minor exceptions, substitutions at positions predicted from
crystallography to be important in binding the terminal
0022-538X/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
Discrimination between Sialic Acid-Containing
Receptors and Pseudoreceptors Regulates Polyomavirus Spread in
the Mouse
-2,3-linked
sialic acid or the penultimate sugar (galactose) destroyed the ability
of the virus to replicate in cell culture. Substitutions that prevented binding to a branched disialyloligosaccharide were found to result in
viruses that were both viable in culture and tumorigenic in the mouse.
Conversely, substitutions that allowed recognition and binding of the
branched carbohydrate chain inhibited spread in the mouse, though the
viruses remained viable in culture. Mice of five different inbred
strains, all highly susceptible to large-plaque virus, showed
resistance to the spread of polyomavirus strains bearing the VP1 type
which binds the branched-chain receptor. We suggest that glycoproteins
bearing the appropriate O-linked branched sialyloligosaccharide chains
are effective pseudoreceptors in the host and that they block the
spread of potentially tumorigenic or virulent virus strains.
*
Corresponding author. Mailing address: Department of
Pathology, Harvard Medical School, 200 Longwood Ave., Boston, MA 02115. Phone: (617) 432-1960. Fax: (617) 277-5291. E-mail:
thomas_benjamin{at}hms.harvard.edu.
Journal of Virology, July 1999, p. 5826-5832, Vol. 73, No. 7
0022-538X/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.
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