Novel approach to the development of effective H5N1 influenza A virus vaccines: use of M2 cytoplasmic tail mutants

Attenuated influenza A viruses with modified cleavage sites in hemagglutinin as live vaccines

Influenza A viruses are a public-health concern as they cause annual epidemics and may initiate a pandemic. Common inactivated influenza A vaccines induce a serum antibody response, which may not be protective against virus variation in the field. In contrast to conventional vaccines, the intranasally administered live influenza vaccine may have the potential to induce long-lived and heterosubtypic immunity. In this perspective, attenuated hemagglutinin cleavage-site mutants are discussed in view of usage as influenza live vaccines. This approach allows the convertion of any influenza A strain into an attenuated vaccine virus. The mutated hemagglutinin can serve as a component of a multiple live-attenuated influenza vaccine and would prevent reassortment into circulating viruses.

A seven-segmented influenza A virus expressing the influenza C virus glycoprotein HEF

Influenza viruses are classified into three types: A, B, and C. The genomes of A- and B-type influenza viruses consist of eight RNA segments, whereas influenza C viruses only have seven RNAs. Both A and B influenza viruses contain two major surface glycoproteins: the hemagglutinin (HA) and the neuraminidase (NA). Influenza C viruses have only one major surface glycoprotein, HEF (hemagglutinin-esterase fusion). By using reverse genetics, we generated two seven-segmented chimeric influenza viruses. Each possesses six RNA segments from influenza virus A/Puerto Rico/8/34 (PB2, PB1, PA, NP, M, and NS); the seventh RNA segment encodes either the influenza virus C/Johannesburg/1/66 HEF full-length protein or a chimeric protein HEF-Ecto, which consists of the HEF ectodomain and the HA transmembrane and cytoplasmic regions. To facilitate packaging of the heterologous segment, both the HEF and HEF-Ecto coding regions are flanked by HA packaging sequences. When introduced as an eighth segment with the NA packaging sequences, both viruses are able to stably express a green fluorescent protein (GFP) gene, indicating a potential use for these viruses as vaccine vectors to carry foreign antigens. Finally, we show that incorporation of a GFP RNA segment enhances the growth of seven-segmented viruses, indicating that efficient influenza A viral RNA packaging requires the presence of eight RNA segments. These results support a selective mechanism of viral RNA recruitment to the budding site.