Antigenic sites on the rotavirus major outershell glycoprotein were identified by using mutant viruses selected for resistance to neutralizing (serotype-specific) monoclonal antibodies. The glycoprotein genes from these mutants were sequenced to determine the position and nature of the resultant amino acid substitutions in the protein. Three regions (A, B, and C) were identified (amino acids 87-96, 145-150, and 211-223, respectively), of which region C appears to be the most important. A mutation in region C caused a 10-fold increase in resistance to neutralization by polyclonal antiviral antiserum. The results of this study, together with other data, indicate that the three-dimensional folding of the native protein is such that regions A and C are in close proximity.Diarrheal disease remains one of the major health problems in developing countries and is responsible for a large number of deaths each year, particularly among infants (1). Rotavirus has been identified as the single most important causative agent of acute infantile gastroenteritis (2), and a worldwide effort is being made to develop a suitable rotavirus vaccine (3, 4). Rotaviruses are 70-nm-diameter spherical particles with segmented double-stranded RNA genomes, and four human serotypes are known (5, 6). Protection from disease appears to be effected by secretory antibodies directed against determinants on the two recognized surface proteins (one the product of gene 4, and the other, of genes 7, 8, and 9) (7). The most important of these is the major outer-shell glycoprotein (8), which determines the virus serotype (9-11). Recent work has focused on this protein and a considerable amount of information is now known, including its amino acid sequence (12-15) and its overall antigenic structure (16). However, analysis of the antigenic structure at the amino acid level has not been reported. We describe here the identification of type-specific antigenic determinants on the major outer-shell glycoprotein of SA11 rotavirus by the characterization of mutants resistant to neutralizing monoclonal antibodies.
MATERIALS AND METHODSVirus. SA11 rotavirus was grown in MA104 cells as described (17). To produce stocks for the selection of mutant viruses, a single batch of virus, which had not previously been plaque-purified, was passaged once at very low multiplicity (-5 x 10-4 plaque-forming unit per cell) and the harvests from each culture bottle were stored at -70°C as separately numbered stocks.Selection of Monoclonal Antibody (mAb)-Resistant Mutants. The mAbs used for the selection of viral mutants have been described (16,18). The methods used for selecting and plaque-purifying mAb-resistant mutants will be described in detail elsewhere.Production of Virus Transcripts. Virus was purified by centrifugation in CsCl gradients as described (17). After treatment with EDTA to activate the viral polymerase (19), virus cores were incubated in 100 mM Tris Cl buffer (pH 8.0, 500 suI) containing 10 mM MgCl2, 100 mM sodium acetate, 2 mM ATP, 2 mM GTP, 2 mM CT...
