Matrix M H5N1 vaccine induces cross-H5 clade humoral immune responses in a randomized clinical trial and provides protection from highly pathogenic influenza challenge in ferrets
Cox, Rebecca Jane; Major, Diane; Pedersen, Gabriel Kristian; Pathirana, Rishi; Höschler, Katja; Guilfoyle, Kate; Roseby, Sarah; Bredholt, Geir; Assmus, Jörg; Breakwell, Lucy; Campitelli, Laura; Sjursen, Haakon
Peer reviewed, Journal article
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Date
2015-07-06Metadata
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https://doi.org/10.1371/journal.pone.0131652Abstract
Background and Methods: Highly pathogenic avian influenza (HPAI) viruses constitute a pandemic threat and the development of effective vaccines is a global priority. Sixty adults were recruited into a randomized clinical trial and were intramuscularly immunized with two virosomal vaccine H5N1 (NIBRG-14) doses (21 days apart) of 30μg HA alone or 1.5, 7.5 or 30μg HA adjuvanted with Matrix M. The kinetics and longevity of the serological responses against NIBRG-14 were determined by haemagglutination inhibition (HI), single radial haemolysis (SRH), microneutralization (MN) and ELISA assays. The cross-H5 clade responses in sera were determined by HI and the antibody-secreting (ASC) cell ELISPOT assays. The protective efficacy of the vaccine against homologous HPAI challenge was evaluated in ferrets. Results: The serological responses against the homologous and cross-reactive strains generally peaked one week after the second dose, and formulation with Matrix M augmented the responses. The NIBRG-14-specific seroprotection rates fell significantly by six months and were low against cross-reactive strains although the adjuvant appeared to prolong the longevity of the protective responses in some subjects. By 12 months post-vaccination, nearly all vaccinees had NIBRG-14-specific antibody titres below the protective thresholds. The Matrix M adjuvant was shown to greatly improve ASC and serum IgG responses following vaccination. In a HPAI ferret challenge model, the vaccine protected the animals from febrile responses, severe weight loss and local and systemic spread of the virus. Conclusion: Our findings show that the Matrix M-adjuvanted virosomal H5N1 vaccine is a promising pre-pandemic vaccine candidate.