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通过将 CD55/衰变加速因子掺入携带杆状病毒 GP64 的病毒颗粒中获得补体抗性。

Acquisition of complement resistance through incorporation of CD55/decay-accelerating factor into viral particles bearing baculovirus GP64.

机构信息

Department of Molecular Virology, Research Institute for Microbial Diseases, Osaka University, 3-1 Yamada-oka, Suita, Osaka 565-0871, Japan.

出版信息

J Virol. 2010 Apr;84(7):3210-9. doi: 10.1128/JVI.02519-09. Epub 2010 Jan 13.

DOI:10.1128/JVI.02519-09
PMID:20071581
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2838113/
Abstract

A major obstacle to gene transduction by viral vectors is inactivation by human complement in vivo. One way to overcome this is to incorporate complement regulatory proteins, such as CD55/decay accelerating factor (DAF), into viral particles. Lentivirus vectors pseudotyped with the baculovirus envelope protein GP64 have been shown to acquire more potent resistance to serum inactivation and longer transgene expression than those pseudotyped with the vesicular stomatitis virus (VSV) envelope protein G. However, the molecular mechanisms underlying resistance to serum inactivation in pseudotype particles bearing the GP64 have not been precisely elucidated. In this study, we generated pseudotype and recombinant VSVs bearing the GP64. Recombinant VSVs generated in human cell lines exhibited the incorporation of human DAF in viral particles and were resistant to serum inactivation, whereas those generated in insect cells exhibited no incorporation of human DAF and were sensitive to complement inactivation. The GP64 and human DAF were detected on the detergent-resistant membrane and were coprecipitated by immunoprecipitation analysis. A pseudotype VSV bearing GP64 produced in human DAF knockdown cells reduced resistance to serum inactivation. In contrast, recombinant baculoviruses generated in insect cells expressing human DAF or carrying the human DAF gene exhibited resistance to complement inactivation. These results suggest that the incorporation of human DAF into viral particles by interacting with baculovirus GP64 is involved in the acquisition of resistance to serum inactivation.

摘要

病毒载体基因转导的一个主要障碍是体内的人补体失活。克服这一障碍的一种方法是将补体调节蛋白,如 CD55/衰变加速因子(DAF),整合到病毒颗粒中。已证明用杆状病毒 envelope 蛋白 GP64 假型化的慢病毒载体比用水疱性口炎病毒(VSV)envelope 蛋白 G 假型化的载体具有更强的抵抗血清失活和更长的转基因表达能力。然而,GP64 假型颗粒抵抗血清失活的分子机制尚未得到精确阐明。在这项研究中,我们生成了携带 GP64 的假型和重组 VSV。在人细胞系中产生的重组 VSV 表现出人 DAF 整合到病毒颗粒中,并对血清失活具有抗性,而在昆虫细胞中产生的重组 VSV 则不整合人 DAF,对补体失活敏感。在去污剂抗性膜上检测到 GP64 和人 DAF,并通过免疫沉淀分析共沉淀。在人 DAF 敲低细胞中产生的携带 GP64 的假型 VSV 降低了对血清失活的抗性。相比之下,在表达人 DAF 的昆虫细胞中生成的重组杆状病毒或携带人 DAF 基因的重组杆状病毒表现出对补体失活的抗性。这些结果表明,杆状病毒 GP64 与人 DAF 的相互作用将人 DAF 整合到病毒颗粒中,从而获得对血清失活的抗性。

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本文引用的文献

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Baculovirus GP64-pseudotyped HIV-based lentivirus vectors are stabilized against complement inactivation by codisplay of decay accelerating factor (DAF) or of a GP64-DAF fusion protein.杆状病毒GP64假型化的基于HIV的慢病毒载体通过共展示衰变加速因子(DAF)或GP64-DAF融合蛋白来稳定,以抵抗补体失活。
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