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由烟草花叶病毒和辛德毕斯病毒构建的反式衣壳重组病毒载体的组装及其作为免疫原的评估。

Assembly of trans-encapsidated recombinant viral vectors engineered from Tobacco mosaic virus and Semliki Forest virus and their evaluation as immunogens.

作者信息

Smith Mark L, Corbo Tina, Bernales Jacqueline, Lindbo John A, Pogue Gregory P, Palmer Kenneth E, McCormick Alison A

机构信息

Large Scale Biology Corporation, 3333 Vaca Valley Parkway, Suite 1000, Vacaville, CA 95688, USA.

出版信息

Virology. 2007 Feb 20;358(2):321-33. doi: 10.1016/j.virol.2006.08.040. Epub 2006 Oct 2.

Abstract

RNA virus vectors are attractive vaccine delivery agents capable of directing high-level gene expression without integration into host cell DNA. However, delivery of non-encapsidated RNA viral vectors into animal cells is relatively inefficient. By introducing the tobacco mosaic virus (TMV) origin of assembly into the RNA genome of Semliki Forest virus (SFV), we generated an SFV expression vector that could be efficiently packaged (trans-encapsidated) in vitro by purified TMV coat protein (CP). Using cellular assays, pseudovirus disassembly, RNA replication and reporter gene expression were demonstrated. We also evaluated the immune response to trans-encapsidated recombinant SFV carrying a model antigen gene (beta-galactosidase) in C57/B6 mice. Relative to RNA alone, vector encapsidation significantly improved the humoral and cellular immune responses. Furthermore, reassembly with recombinant TMV CPs permitted the display of peptide epitopes on the capsid surface as either genetic fusions or through chemical conjugation, to complement the immunoreactivity of the encapsidated RNA genetic payload. The SFV vector/TMV CP system described provides an alternative nucleic acid delivery mechanism that is safe, easy to manufacture in vitro and that also facilitates the generation of unique nucleic acid/protein antigen compositions.

摘要

RNA病毒载体是一种有吸引力的疫苗递送剂,能够在不整合到宿主细胞DNA的情况下指导高水平的基因表达。然而,将非衣壳化的RNA病毒载体递送到动物细胞中效率相对较低。通过将烟草花叶病毒(TMV)组装起始位点引入到Semliki森林病毒(SFV)的RNA基因组中,我们构建了一种SFV表达载体,该载体能够在体外被纯化的TMV衣壳蛋白(CP)有效包装(反式衣壳化)。利用细胞分析方法,证实了假病毒的解体、RNA复制及报告基因表达。我们还评估了C57/B6小鼠对携带模型抗原基因(β-半乳糖苷酶)的反式衣壳化重组SFV的免疫反应。相对于单独的RNA,载体衣壳化显著改善了体液免疫和细胞免疫反应。此外,与重组TMV CP重新组装允许肽表位以基因融合或通过化学偶联的方式展示在衣壳表面,以补充衣壳化RNA遗传载荷的免疫反应性。所描述的SFV载体/TMV CP系统提供了一种安全、易于体外制备且有助于生成独特核酸/蛋白质抗原组合物的替代核酸递送机制。

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