Abstract

Zoonotic avian influenza viruses pose severe health threats to humans. Of several viral subtypes reported, the low pathogenic avian influenza H7N9 virus has since February 2013 caused more than 1,500 cases of human infection with an almost 40% case-fatality rate. Vaccination of poultry appears to reduce human infections. However, the emergence of highly pathogenic strains has increased concerns about H7N9 pandemics. To develop an efficacious H7N9 human vaccine, we designed vaccine viruses by changing the patterns of N-linked glycosylation (NLG) on the viral hemagglutinin (HA) protein based on evolutionary patterns of H7 HA NLG changes. Notably, a virus in which 2 NLG modifications were added to HA showed higher growth rates in cell culture and elicited more cross-reactive antibodies than did other vaccine viruses with no change in the viral antigenicity. Developed into an inactivated vaccine formulation, the vaccine virus with 2 HA NLG additions exhibited much better protective efficacy against lethal viral challenge in mice than did a vaccine candidate with wild-type (WT) HA by reducing viral replication in the lungs. In a ferret model, the 2 NLG-added vaccine viruses also induced hemagglutination-inhibiting antibodies and significantly suppressed viral replication in the upper and lower respiratory tracts compared with the WT HA vaccines. In a mode of action study, the HA NLG modification appeared to increase HA protein contents incorporated into viral particles, which would be successfully translated to improve vaccine efficacy. These results suggest the strong potential of HA NLG modifications in designing avian influenza vaccines.

Highlights

  • To analyze the effects of the N-linked glycosylation (NLG) modifications in the HA globular head region on viral replication and immunogenicity, we generated four 7:1 NLG-mutant viruses using the HA of the influenza A/Anhui/1/2013 (H7N9 subtype) virus with the genetic backbone from the influenza A/Korea/01/2009 (pandemic (H1N1) 2009 strain) virus by plasmid-based reverse genetics [28]

  • We made 2 single mutants in which an NLG modification was added at either residue 133 or residue 158, 1 mutant in which NLG modifications were added at both residues 133 and 158, and 1 mutant in which an NLG modification was removed from residue 240

  • We examined whether modifying HA NLG patterns improves the efficacy of H7N9 vaccine strains

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Summary

Introduction

Glycosylation modifications for designing an efficacious H7N9 influenza virus vaccine. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

Methods
Results
Conclusion

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