CAS Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai, 200031, China.
CAS Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Sciences, University of Chinese Academy of Sciences, Shanghai, 200031, China.
Antiviral Res. 2022 Jan;197:105231. doi: 10.1016/j.antiviral.2021.105231. Epub 2021 Dec 26.
Human noroviruses (NoVs) are the most common cause of acute gastroenteritis worldwide. One major obstacle in developing NoV vaccines is the lack of robust cell culture for efficacy evaluation. In this study, we successfully developed a NoV virus-like particle (VLP) entry assay based on split NanoLuc luciferase (LgBiT and HiBiT) complementation. HiBiT-tagged NoV GII.4 VLP (VLP-HiBiT) can be efficiently produced in Pichia pastoris and retain binding activity towards NoV receptor histo-blood group antigens (HBGAs). A 293T-FUT2-LgBiT cell line was established and was shown to stably express cell surface HBGAs and intracellular LgBiT. GII.4 VLP-HiBiT can bind and enter into the 293-FUT2-LgBiT cells, producing strong luminescence signals in live cells. Anti-GII.4 sera can inhibit VLP-HiBiT entry into the 293-FUT2-LgBiT cells in a dose-dependent manner, and neutralizing titers well correlate with their blocking titers measured by HBGAs-binding blockade assay. Moreover, such a surrogate infection/neutralization assay can be applied to other NoV genotypes such as GI.1 and GII.17. Together, the VLP-HiBiT entry assay can mimic both NoV attachment and internalization in live cells and thus facilitate reliable and comprehensive evaluation of NoV vaccine and antibodies.
人类诺如病毒(NoV)是全球急性胃肠炎的最常见病因。开发 NoV 疫苗的主要障碍之一是缺乏用于功效评估的稳健细胞培养。在本研究中,我们成功开发了一种基于分割 NanoLuc 荧光酶(LgBiT 和 HiBiT)互补的 NoV 病毒样颗粒(VLP)进入测定法。HiBiT 标记的 NoV GII.4 VLP(VLP-HiBiT)可在毕赤酵母中高效生产,并保留对 NoV 受体组织血型抗原(HBGAs)的结合活性。建立了 293T-FUT2-LgBiT 细胞系,该细胞系稳定表达细胞表面 HBGAs 和细胞内 LgBiT。GII.4 VLP-HiBiT 可与 293-FUT2-LgBiT 细胞结合并进入该细胞,在活细胞中产生强烈的荧光信号。抗 GII.4 血清可剂量依赖性地抑制 VLP-HiBiT 进入 293-FUT2-LgBiT 细胞,中和效价与其通过 HBGAs 结合阻断测定法测量的阻断效价密切相关。此外,这种替代感染/中和测定法可应用于其他 NoV 基因型,如 GI.1 和 GII.17。总之,VLP-HiBiT 进入测定法可模拟 NoV 在活细胞中的附着和内化,从而有助于对 NoV 疫苗和抗体进行可靠和全面的评估。
