Julia Romanova, etc.,al. Protective efficacy of the UniFluVec influenza vaccine vector against the highly pathogenic influenza A/Indonesia/5/2005 (H5N1) strain in ferrets. Vaccine, Vol 65, 24 Oct 2025, 127795
Background
The emergence of new influenza strains with unpredictable antigenic properties poses a significant vaccination challenge. The increasing incidence of human H5 infections underscores the urgent need for effective pre-pandemic vaccines.
Methods
The UniFluVec and UniFluVec-wtNS1 viruses were designed as H1N1pdm vaccine candidates. Both viruses contained a heterologous A/Singapore/1/57-like (H2N2) NEP gene, which served as an attenuation factor. UniFluVec additionally carried a truncated to 124 amino acids NS1 gene, and an insertion of conserved influenza sequences. UniFluVec-wtNS1 retained the wild-type NS1 gene. The impact of NS1 and NEP modifications on attenuation and phenotypic markers was assessed in cells and mice. Safety and prophylactic efficacy were assessed in ferrets following a single intranasal immunisation with the maximum feasible dose (8.7 log10 EID50), followed by challenge with the highly pathogenic avian influenza virus (HPAIV) A/Indonesia/5/2005 (H5N1).
Results
Modifications in NS1 and NEP independently and synergistically induced a temperature-sensitive phenotype and enhanced type I/II interferon response, resulting in a highly attenuated vaccine profile. UniFluVec, incorporating both modifications within the NS genomic segment, demonstrated superior viral clearance, reducing lung damage, and ensuring 100 % survival in infected animals.
Conclusion
The replication-deficient UniFluVec vector demonstrates safety, immunogenicity, and protective efficacy against the heterologous HPAIV strain in ferrets following a single intranasal administration.
The emergence of new influenza strains with unpredictable antigenic properties poses a significant vaccination challenge. The increasing incidence of human H5 infections underscores the urgent need for effective pre-pandemic vaccines.
Methods
The UniFluVec and UniFluVec-wtNS1 viruses were designed as H1N1pdm vaccine candidates. Both viruses contained a heterologous A/Singapore/1/57-like (H2N2) NEP gene, which served as an attenuation factor. UniFluVec additionally carried a truncated to 124 amino acids NS1 gene, and an insertion of conserved influenza sequences. UniFluVec-wtNS1 retained the wild-type NS1 gene. The impact of NS1 and NEP modifications on attenuation and phenotypic markers was assessed in cells and mice. Safety and prophylactic efficacy were assessed in ferrets following a single intranasal immunisation with the maximum feasible dose (8.7 log10 EID50), followed by challenge with the highly pathogenic avian influenza virus (HPAIV) A/Indonesia/5/2005 (H5N1).
Results
Modifications in NS1 and NEP independently and synergistically induced a temperature-sensitive phenotype and enhanced type I/II interferon response, resulting in a highly attenuated vaccine profile. UniFluVec, incorporating both modifications within the NS genomic segment, demonstrated superior viral clearance, reducing lung damage, and ensuring 100 % survival in infected animals.
Conclusion
The replication-deficient UniFluVec vector demonstrates safety, immunogenicity, and protective efficacy against the heterologous HPAIV strain in ferrets following a single intranasal administration.
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