Flagellin-HA vaccines protect ferrets and mice against H5N1 highly pathogenic avian influenza virus (HPAIV) infections

Abstract

In order to meet the global demand for rapid production of pandemic influenza vaccines, we have developed a recombinant fusion vaccine platform in which the globular head of hemagglutinin (HA) antigen is genetically fused to bacterial flagellin (a TLR5 ligand). These flagellin-HA fusion vaccine candidates elicit highly protective immunity against a lethal challenge with 2009 pandemic H1N1 (Liu, et al. PLoS ONE 2011; 6:e20928) or H5N1 influenza A/Vietnam/1203/04 (A/VN) infections in mice (Song, et al. Vaccine 2009;27:5875–88). Here we provide the first evidence showing that two A/VN vaccine candidates elicited HA-specific IgG, reduced nasal virus shedding, and conferred full protection against a lethal A/VN infection in ferrets. Furthermore, we show that similar flagellin-HA vaccine candidates of two other H5N1 HPAIV are immunogenic and/or efficacious in mice. Vaccines of A/Indonesia/5/05 (A/IN) induced significant HAI titers to homologous and heterologous A/Anhui/1/05 (A/AN) H5N1 viruses. Two subcutaneous immunizations with doses of either 0.3μg or 3μg of A/IN candidates resulted in ≥2.5 log10 unit reduction in day 5 lung virus titer and 90–100% protection against a lethal A/IN challenge in mice. Both R3.HA5 IN and R3.2xHA5 IN vaccines elicited robust neutralizing antibody responses that last for at least 9 months and demonstrated a significant anamnestic antibody response upon further booster immunization. Finally, we found that two vaccine candidates of A/AN induced significant HAI titers in mice. Taken together, our recombinant flagellin-HA platform has been successfully used to generate potent H5N1 HPAIV vaccine candidates. These promising preclinical results justify the advancement of these candidates into the clinic.