Division of Viral Products, Center for Biologics Evaluation and Research, Food and Drug Administration, Bethesda, Maryland, USA.
J Virol. 2012 Nov;86(22):12283-93. doi: 10.1128/JVI.01596-12. Epub 2012 Sep 5.
Recombinant hemagglutinin from influenza viruses with pandemic potential can be produced rapidly in various cell substrates. In this study, we compared the functionality and immunogenicity of bacterially produced oligomeric or monomeric HA1 proteins from H5N1 (A/Vietnam/1203/04) with those of the egg-based licensed subunit H5N1 (SU-H5N1) vaccine in ferrets challenged with homologous or heterologous H5N1 highly pathogenic influenza strains. Ferrets were vaccinated twice with the oligomeric or monomeric rHA1 or with SU-H5N1 (Sanofi Pasteur) emulsified with Titermax adjuvant and were challenged with wild-type homologous (A/Vietnam/1203/04; clade 1) or heterologous (A/Whooperswan/Mongolia/244/2005; clade 2.2) virus. Only the oligomeric rHA1 (not the monomeric rHA1) immunogen and the SU-H5N1 vaccine provided protection against the lethality and morbidity of homologous and heterologous highly pathogenic H5N1. Oligomeric rHA1 generated more cross-neutralizing antibodies and higher levels of serum antibody binding to HA1, with stronger avidity and a better IgG/IgM ratio, than monomeric HA1 and SU-H5N1 vaccines, as determined by surface plasmon resonance (SPR). Importantly, viral loads after heterologous H5N1 challenge were more efficiently controlled in ferrets vaccinated with the oligomeric rHA1 immunogen than in SU-H5N1-vaccinated ferrets. The reduction of viral loads in the nasal washes correlated strongly with higher-avidity antibodies to oligomeric rHA1 derived from H5N1 clade 1 and clade 2.2 viruses, as measured by SPR. This is the first study to show the role of antibody avidity for the HA1 globular head domain in reduction of viral loads in the upper respiratory tract, which could significantly reduce viral transmission.
具有大流行潜力的流感病毒的重组血凝素可以在各种细胞基质中快速生产。在这项研究中,我们比较了来自 H5N1(A/Vietnam/1203/04)的细菌产生的三聚体或单体 HA1 蛋白与基于鸡蛋的许可亚单位 H5N1(SU-H5N1)疫苗在同源或异源 H5N1 高致病性流感株感染雪貂中的功能和免疫原性。雪貂用三聚体或单体 rHA1 或用 SU-H5N1(Sanofi Pasteur)与 Titermax 佐剂乳化进行两次接种,并接受同源(A/Vietnam/1203/04;1 类)或异源(A/Whooperswan/Mongolia/244/2005;2.2 类)野生型病毒的挑战。只有三聚体 rHA1(不是单体 rHA1)免疫原和 SU-H5N1 疫苗能提供对同源和异源高致病性 H5N1 的致死性和发病率的保护。与单体 rHA1 和 SU-H5N1 疫苗相比,三聚体 rHA1 产生了更多的交叉中和抗体和更高水平的血清抗体与 HA1 结合,具有更强的亲和力和更好的 IgG/IgM 比值,这是通过表面等离子体共振(SPR)确定的。重要的是,与接种 SU-H5N1 疫苗的雪貂相比,接种三聚体 rHA1 免疫原的雪貂在异源 H5N1 挑战后能更有效地控制病毒载量。鼻冲洗液中的病毒载量减少与通过 SPR 测量的对源自 H5N1 1 类和 2.2 类病毒的三聚体 rHA1 的高亲和力抗体密切相关。这是第一项表明 HA1 球形头部结构域的抗体亲和力在降低上呼吸道病毒载量中的作用的研究,这可以显著降低病毒传播。