Nerome Institute of Biological Resources, Nago, Okinawa, Japan.
Equine Research Institute, Japan Racing Association, Shimotsuke, Tochigi, Japan.
Virol J. 2023 May 26;20(1):102. doi: 10.1186/s12985-023-02076-1.
Vaccine efficacy of conventional influenza vaccines depend on the antigenic similarity between the selected vaccine strain and annual epidemic strain. Since the influenza virus evolves yearly, a vaccine which is independent from viral antigenic mutation is desired. We have developed chimeric cytokine (CC) and hemagglutinin (HA) incorporated virus-like particle (CCHA-VLP) as a universal influenza vaccine candidate. Using mouse models, it was shown that the vaccine provided broad-based protective activity against several types of human and avian influenza A viruses. In this report, nasal immunization and mixture form (CC- and HA-VLP) were tested to improve usability of this vaccine. Immunogenicity was evaluated by induction of IgG, IgA, and IFN-γ secreting cells. Protective activity was measured as mouse survival rate against lethal challenge with H1N1 and H5N1 viruses and against H3N2 virus by lung viral titer. Nasal immunization showed low immunogenicity and low protective efficacy, but the addition of a sesame oil adjuvant improved vaccine efficacy. Mixture form of CC- and HA-VLP showed comparable or higher vaccine efficacy when compared to the incorporated form, CCHA-VLP. These results contribute to improved usability, such as needle-less administration and easy HA subtypes alteration.
常规流感疫苗的疫苗效力取决于所选疫苗株与年度流行株之间的抗原相似性。由于流感病毒每年都在进化,因此需要一种不受病毒抗原突变影响的疫苗。我们已经开发出嵌合细胞因子(CC)和血凝素(HA)掺入的病毒样颗粒(CCHA-VLP)作为通用流感疫苗候选物。使用小鼠模型表明,该疫苗针对几种类型的人用和禽用甲型流感病毒提供了广泛的保护活性。在本报告中,测试了鼻内免疫和混合形式(CC 和 HA-VLP),以提高该疫苗的可用性。通过诱导 IgG、IgA 和 IFN-γ 分泌细胞来评估免疫原性。通过测量 H1N1 和 H5N1 病毒对致死性攻击的小鼠存活率以及通过肺病毒滴度对 H3N2 病毒的保护活性来衡量保护活性。鼻内免疫显示出低的免疫原性和低的保护效力,但添加芝麻油佐剂可提高疫苗效力。与掺入形式的 CCHA-VLP 相比,CC 和 HA-VLP 的混合物形式显示出可比或更高的疫苗效力。这些结果有助于提高可用性,例如无针给药和易于改变 HA 亚型。
