National Institute of Diagnostics and Vaccine Development in Infectious Disease, School of Life Sciences, Xiamen University, Xiamen, 361102, China.
State Key Laboratory of Molecular Vaccinology and Molecular Diagnostics, School of Public Health, Xiamen University, Xiamen, 361102, China.
Antiviral Res. 2019 Apr;164:154-161. doi: 10.1016/j.antiviral.2019.02.013. Epub 2019 Feb 23.
The Hepatitis E vaccine (Hecolin, licensed in China) harbors a potent particulate immunogen, p239, designed from a 26-aa N-terminal extension of its poorly immunogenic parental protein, E2. Although an effective vaccine, we sought to design a fusion protein in a non-particulate form that could improve the delivery and immunogenicity of E2 epitopes. The non-toxic mutant of diphtheria toxin, CRM197 (Cross-Reacting Material 197) has been successfully used as a carrier protein for conjugated vaccines to enhance the immunogenicity of polysaccharides. Here, we designed a fusion non-particulate protein of E2 and the catalytic domain (fragment A) of CRM197 and evaluated its antigenicity, immunogenicity and disease prevention efficacy in primates. This fusion protein, named CRM197(A)-E2, was bacterially expressed and purified by chromatography. CRM197(A)-E2 presented as a homodimer in solution, similar to its parental E2 protein, and exhibited excellent antigenicity against representative neutralizing monoclonal antibodies, like E2 and p239. However, CRM197(A)-E2 manifested higher immunogenicity in mice compared with that achieved by the particulate p239, as indicated by the 10-times lower ED value and 2-log higher HEV-specific antibody level that could persist for at least 28 weeks. In addition, both the 1 μg and 10 μg doses of CRM197(A)-E2 adjuvanted with aluminum could protect vaccinated monkeys against HEV challenge, matching that achieved with only the higher (10 μg) dose of the p239 vaccine. These results suggest that the CRM197 fragment A alone serves as an intra-molecular adjuvant to remarkably enhance the immunogenicity of the target of interest in a non-particulate form. These findings may pave the way for rational vaccine design, especially in cases where particulates are not accessible.
戊型肝炎疫苗(Hecolin,在中国获得许可)含有一种有效的微粒免疫原 p239,它是由其免疫原性较差的亲本蛋白 E2 的 26 个氨基酸 N 端延伸设计而来。尽管戊型肝炎疫苗是一种有效的疫苗,但我们试图设计一种非微粒形式的融合蛋白,以提高 E2 表位的递呈和免疫原性。无细胞毒性的白喉毒素突变体 CRM197(交叉反应物质 197)已成功用作结合疫苗的载体蛋白,以增强多糖的免疫原性。在这里,我们设计了一种 E2 和 CRM197 的催化结构域(片段 A)的非微粒融合蛋白,并在灵长类动物中评估了其抗原性、免疫原性和疾病预防效果。这种融合蛋白命名为 CRM197(A)-E2,通过色谱法在细菌中表达和纯化。CRM197(A)-E2在溶液中呈同源二聚体形式,类似于其亲本 E2 蛋白,并且表现出对代表性中和单克隆抗体(如 E2 和 p239)的优异抗原性。然而,CRM197(A)-E2 在小鼠中的免疫原性高于微粒 p239,这表现为 ED 值低 10 倍,HEV 特异性抗体水平高 2 个对数,且至少持续 28 周。此外,CRM197(A)-E2 联合铝佐剂的 1μg 和 10μg 剂量均可保护接种猴子免受 HEV 攻击,与 p239 疫苗高剂量(10μg)的效果相当。这些结果表明,CRM197 片段 A 本身可作为一种分子内佐剂,以显著提高非微粒形式目标物的免疫原性。这些发现可能为合理的疫苗设计铺平道路,特别是在无法使用微粒的情况下。
