A genetic and monoclonal analysis of high-yielding reassortants of influenza A virus used for human vaccines

Abstract

This paper describes two methods of analysis using monoclonal antibodies and RNA hybridization to characterize variation in the haemagglutinins of seven high-yielding influenza virus reassortants used for inactivated vaccine production. The results show that variants' were selected in producing these genetic reassortants. The haemagglutinins of two reassortants showed both antigenic and structural differences from their wild-type (wt) parents as detected by the two methods of analysis. These variants were more closely related to other subtype strains which had previously been differentiated from the wt parent by post-infection ferret sera and which also had amino acid sequence differences in antigenically significant sites on the HA 1 polypeptide chain of the haemagglutinin molecule. The haemagglutinins of four of the seven reassortants showed antigenic differences but no apparent structural differences from their wt parents. The haemagglutinin of only on reassortant was antigenically and structurally identical to its wt parent. The variants could not be reliably distinguished with hyperimmune rabbit serum or immune ferret serum to the wt parent virus. It is therefore important to use more discriminatory tests to identify influenza strains correctly. It is also essential for vaccine strains to be as completely characterized as possible. It is considered desirable that both methods of analysis be used to characterize influenza virus reassortant strains.