构建带组氨酸标签的塞内卡病毒A用于病毒抗原的一步纯化

Engineering His-Tagged Senecavirus A for One-Step Purification of Viral Antigens.

作者信息

Fan Junhao, Xiao Peiyu, Kong Dongni, Liu Xinran, Meng Liang, An Tongqing, Cai Xuehui, Wang Haiwei, Yu Li

机构信息

State Key Laboratory of Veterinary Biotechnology, Harbin Veterinary Research Institute, Chinese Academy of Agricultural Sciences, Harbin 150069, China.

China Institute of Veterinary Drug Control, No. 8 Nandajie, Zhongguancun, Haidian, Beijing 100081, China.

出版信息

Vaccines (Basel). 2022 Jan 22;10(2):170. doi: 10.3390/vaccines10020170.

DOI:10.3390/vaccines10020170

PMID:35214628

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8880742/

Abstract

Senecavirus A (SVA) is a picornavirus that causes vesicular disease in swine, and the inactivated vaccine is used to prevent and control SVA infection. To develop a new chromatography strategy for the purification and concentration of SVA vaccine antigens, we inserted a 6×His-tag at the VP1 C-terminal of the SVA/HLJ/CHA/2016 in an infectious clone to rescue a His-tagged SVA. The constructed and rescued recombinant virus, named as rSVA-His, exhibited similar growth kinetics to that of its parental virus. In addition, the expression of a 6×His-tag on the surface of SVA showed genetic stability in cell passages in vitro, which allowed one-step purification of SVA antigens by Ni affinity columns. Furthermore, the immunogenicity of the inactivated rSVA-His was evaluated by inoculating rabbits and detecting neutralizing antibodies. The animals receiving two doses of the inactivated rSVA-His emulsified with oil adjuvant developed a high titer of neutralizing antibodies, indicating that SVA VP1 is tolerant to His-tag insertion without detriment to its antigenicity. In summary, the constructed 6×His-tagged SVA may offer a feasible approach to the affinity purification and concentration of antigens in the process of SVA inactivated vaccine production.

摘要

A组赛内卡病毒（SVA）是一种引起猪水疱病的微小核糖核酸病毒，其灭活疫苗用于预防和控制SVA感染。为开发一种用于SVA疫苗抗原纯化和浓缩的新色谱策略，我们在感染性克隆中SVA/HLJ/CHA/2016的VP1 C末端插入一个6×组氨酸标签，以拯救带组氨酸标签的SVA。构建并拯救的重组病毒命名为rSVA-His，其生长动力学与其亲本病毒相似。此外，SVA表面6×组氨酸标签的表达在体外细胞传代中显示出遗传稳定性，这使得能够通过镍亲和柱一步纯化SVA抗原。此外，通过接种兔子并检测中和抗体来评估灭活rSVA-His的免疫原性。接受两剂与油佐剂乳化的灭活rSVA-His的动物产生了高滴度的中和抗体，表明SVA VP1耐受组氨酸标签插入且不损害其抗原性。总之，构建的6×组氨酸标签SVA可能为SVA灭活疫苗生产过程中抗原的亲和纯化和浓缩提供一种可行的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7536/8880742/a3a8b42b8829/vaccines-10-00170-g001.jpg

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