Structural Requirements for the Assembly of Norwalk Virus-Like Particles

doi:10.1128/JVI.76.8.4044-4055.2002

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Journal of Virology, April 2002, p. 4044-4055, Vol. 76, No. 8
0022-538X/02/$04.00+0 DOI: 10.1128/JVI.76.8.4044-4055.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

Structural Requirements for the Assembly of Norwalk Virus-Like Particles

Andrea Bertolotti-Ciarlet,¹ Laura J. White,¹^, Rong Chen,² B. V. Venkataram Prasad,¹^,2 and Mary K. Estes¹^*

Department of Molecular Virology & Microbiology,¹ Verna and Marrs Mclean Department of Biochemistry and Molecular Biology, Baylor College of Medicine, Houston, Texas 77030²

Received 7 September 2001/ Accepted 8 January 2002

Norwalk virus (NV) is the prototype strain of a group of humancaliciviruses responsible for epidemic outbreaks of acute gastroenteritis.While these viruses do not grow in tissue culture cells or animalmodels, expression of the capsid protein in insect cells resultsin the self-assembly of recombinant NV virus-like particles(rNV VLPs) that are morphologically and antigenically similarto native NV. The X-ray structure of the rNV VLPs has revealedthat the capsid protein folds into two principal domains: ashell (S) domain and a protruding (P) domain (B. V. V. Prasad,M. E. Hardy, T. Dokland, J. Bella, M. G. Rossmann, and M. K.Estes, Science 286:287-290, 1999). To investigate the structuralrequirements for the assembly of rNV VLPs, we performed mutationalanalyses of the capsid protein. We examined the ability of 10deletion mutants of the capsid protein to assemble into VLPsin insect cell cultures. Deletion of the N-terminal 20 residues,suggested by the X-ray structure to be involved in a switchingmechanism during assembly, did not affect the ability of themutant capsid protein to self-assemble into 38-nm VLPs witha T=3 icosahedral symmetry. Further deletions in the N-terminalregion affected particle assembly. Deletions in the C-terminalregions of the P domain, involved in the interactions betweenthe P and S domains, did not block the assembly process, butthey affected the size and stability of the particles. Mutantscarrying three internal deletion mutations in the P domain,involved in maintaining dimeric interactions, produced significantlylarger 45-nm particles, albeit in low yields. The complete removalof the protruding domain resulted in the formation of smoothparticles with a diameter that is slightly smaller than the30-nm diameter expected from the rNV structure. These studiesindicate that the shell domain of the NV capsid protein containseverything required to initiate the assembly of the capsid,whereas the entire protruding domain contributes to the increasedstability of the capsid by adding intermolecular contacts betweenthe dimeric subunits and may control the size of the capsid.

* Corresponding author. Mailing address: Department of Molecular Virology & Microbiology, Baylor College of Medicine, One Baylor Plaza, Room 923E, Mailstop BCM-385, Houston, TX 77030. Phone: (713) 708-3585. Fax: (713) 798-3586. E-mail: mestes{at}bcm.tmc.edu.

Present address: Department of Microbiology & Immunology,University of North Carolina, Chapel Hill, NC 27599.

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