Growth and immunogenicity of influenza viruses cultivated in Vero or MDCK cells and in embryonated chicken eggs.

Vero cells, MDCK cells and embryonated chicken eggs (eggs) were used to evaluate influenza virus growth characteristics and immunogenicity induced by inactivated influenza B vaccines. Both cell lines produced comparable quantities of total viral and haemagglutinin (HA) proteins. Sequence analysis indicated genetic identity of the HA of Vero- and MDCK-grown virus counterparts with maintenance of antigenic characteristics of viruses derived from humans. The egg-grown influenza B/Memphis/1/93 variant differed from cell-grown counterparts at amino acid position 198 (Pro-Thr) and lost a glycosylation site. The level of neuraminidase (NA) activity was the highest in egg-grown virus, while MDCK- and Vero cell-grown viruses possessed 70% and 90% less NA activity respectively when fetuin was used as a substrate. Although each of the vaccines induced high and comparable levels of serum antibodies, mammalian cell-derived vaccines induced antibodies that were more cross reactive, and those antibodies induced by egg-derived vaccine were more specific to the homologous antigen. ELISPOT analysis indicated that the mammalian cell-grown vaccines induced high frequencies of IgG-producing cells directed against both cell- and egg-grown antigens, while egg-grown vaccine induced high frequencies of IgG and IgM-producing cells reacting with homologous antigen and low levels of IgG-producing cells reactive with cell-grown virus antigen. Taken together, our results suggest that mammalian cells are a viable option for the production of influenza virus vaccines.