Sautto Giuseppe A, Kirchenbaum Greg A, Ecker Jeffrey W, Bebin-Blackwell Anne-Gaelle, Pierce Spencer R, Ross Ted M
Center for Vaccines and Immunology, University of Georgia, Athens, GA 30602; and.
Center for Vaccines and Immunology, University of Georgia, Athens, GA 30602; and
Immunohorizons. 2018 Aug 27;2(7):226-237. doi: 10.4049/immunohorizons.1800044.
Influenza viruses represent a threat to the world population. The currently available standard of care influenza vaccines are offered for each influenza season to prevent infection and spread of influenza viruses. Current vaccine formulations rely on using wild-type Ags, including the hemagglutinin (HA) and neuraminidase (NA) proteins as the primary immune targets of the vaccine. However, vaccine effectiveness varies from season to season, ranging from 10 to 75% depending on season and on age group studied. To improve rates of vaccine effectiveness, a new generation of computationally optimized broadly reactive Ags (COBRA)-based vaccines have been developed as a next-generation influenza vaccine. In this report, mice were intranasally, i.p., or i.m. primed with reassortant influenza viruses expressing different H1N1 COBRA HA proteins. These mice were subsequently boosted i.p. or i.m. with the same viruses. Sera collected from mice that were intranasally infected and i.p. boosted with COBRA-based viruses had broad anti-HA IgG binding, hemagglutination inhibition, and neutralizing activity against a panel of seasonal and pandemic H1N1 viruses. Mice immunized with viruses expressing a seasonal or pandemic H1N1 HA protein had antisera that recognized fewer viruses in the panel. Overall, COBRA-based HA proteins displayed on the surface of a virus elicited a breadth of Abs that recognized and neutralized historical H1N1 strains as well as more contemporary H1N1 viruses.
流感病毒对全球人口构成威胁。目前每个流感季节都会提供现有的标准护理流感疫苗,以预防流感病毒的感染和传播。当前的疫苗配方依赖于使用野生型抗原,包括血凝素(HA)和神经氨酸酶(NA)蛋白作为疫苗的主要免疫靶点。然而,疫苗的有效性因季节而异,根据季节和所研究的年龄组,有效性在10%至75%之间。为了提高疫苗有效性的比率,已经开发了新一代基于计算优化的广谱反应性抗原(COBRA)的疫苗作为下一代流感疫苗。在本报告中,用表达不同H1N1 COBRA HA蛋白的重组流感病毒经鼻内、腹腔内或肌肉内途径对小鼠进行初次免疫。随后用相同病毒经腹腔内或肌肉内途径对这些小鼠进行加强免疫。从经鼻内感染并用基于COBRA的病毒进行腹腔内加强免疫的小鼠收集的血清,对一组季节性和大流行性H1N1病毒具有广泛的抗HA IgG结合、血凝抑制和中和活性。用表达季节性或大流行性H1N1 HA蛋白的病毒免疫的小鼠产生的抗血清识别该组中较少的病毒。总体而言,展示在病毒表面的基于COBRA的HA蛋白引发了一系列抗体,这些抗体能够识别并中和历史H1N1毒株以及更现代的H1N1病毒。
