Cooperative involvement of the S1 and S2 subunits of the murine coronavirus spike protein in receptor binding and extended host range
de Haan, Cornelis A M; Te Lintelo, Eddie; Li, Zhen; Raaben, Matthijs; Wurdinger, Tom; Bosch, Berend Jan; Rottier, Peter J M
(2006) Journal of Virology, volume 80, issue 22, pp. 10909 - 10918
(Article)
Abstract
To study the process of spike (S)-receptor interaction during coronavirus entry, we evaluated the contributions of mutations in different regions of the murine hepatitis virus (MHV) S protein to natural receptor murine carcinoembryonic antigen-related cell adhesion molecule 1a (CEACAM1a) dependence and to the acquisition of extended host range. Extended-host-range variants
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of MHV strain A59 were previously obtained from persistently infected cells (J. H. Schickli, B. D. Zelus, D. E. Wentworth, S. G. Sawicki, and K. V. Holmes, J. Virol. 71:9499-9504, 1997). These variant viruses contain several mutations in the S protein that confer to the viruses the ability to enter cells in a heparan sulfate-dependent manner (C. A. de Haan, Z. Li, E. te Lintelo, B. J. Bosch, B. J. Haijema, and P. J. M. Rottier, J. Virol. 79:14451-14456, 2005). While the parental MHV-A59 is fully dependent on murine CEACAM1a for its entry, viruses carrying the variant mutations in the amino-terminal part of their S protein had become dependent on both CEACAM1a and heparan sulfate. Substitutions in a restricted, downstream part of the S protein encompassing heptad repeat region 1 (HR1) and putative fusion peptide (FP) did not alter the CEACAM1a dependence. However, when the mutations in both parts of the S protein were combined, the resulting viruses became independent of CEACAM1a and acquired the extended host range. In addition, these viruses showed a decreased binding to and inhibition by soluble CEACAM1a. The observations suggest that the amino-terminal region of the S protein, including the receptor-binding domain, and a region in the central part of the S protein containing HR1 and FP, i.e., regions far apart in the linear sequence, communicate and may even interact physically in the higher-order structure of the spike.
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Keywords: Amino Acid Substitution, Animals, Carcinoembryonic Antigen, Cats, Cell Line, Genes, Reporter, Heparitin Sulfate, Humans, Luciferases, Membrane Glycoproteins, Mice, Murine hepatitis virus, Mutation, Missense, Protein Binding, Receptors, Virus, Spike Glycoprotein, Coronavirus, Viral Envelope Proteins, Virus Attachment, Coronacrisis-Taverne
ISSN: 0022-538X
Publisher: American Society for Microbiology
(Peer reviewed)
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