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高度调控的rep基因表达在腺相关病毒载体生产中的作用。

Role for highly regulated rep gene expression in adeno-associated virus vector production.

作者信息

Li J, Samulski R J, Xiao X

机构信息

Gene Therapy Center, University of North Carolina at Chapel Hill, 27599, USA.

出版信息

J Virol. 1997 Jul;71(7):5236-43. doi: 10.1128/JVI.71.7.5236-5243.1997.

DOI:10.1128/JVI.71.7.5236-5243.1997
PMID:9188591
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC191759/
Abstract

Recent success achieving long-term in vivo gene transfer without a significant immune response by using adeno-associated virus (AAV) vectors (X. Xiao, J. Li, and R. J. Samulski, J. Virol. 70:8098-8108, 1996) has encouraged further development of this vector for human gene therapy. Currently, studies focus on the generation of high-titer vectors by using the two-plasmid helper-vector system in adenovirus (Ad)-infected cells. To examine the effects of the AAV replication (rep) genes on recombinant AAV (rAAV) vector production, we have constructed a series of AAV helper plasmids that contain strong heterologous promoters in place of the endogenous p5 promoter. Although high-level rep gene expression was achieved, rAAV DNA failed to replicate in the absence of Ad infection. Moreover, unregulated overexpression of Rep78/68 led to substantially lower rAAV yields in the presence of Ad (10(4-5) versus 10(7-8)). In contrast, under similar conditions, reduced Rep78/68 expression resulted in much higher rAAV yields (10(9)). Molecular characterization showed that overexpression of the rep gene decreased rAAV DNA replication and severely inhibited capsid (cap) gene expression. Interestingly, a reduced rep level enhanced cap gene expression and supported normal rAAV DNA replication. These studies suggest a critical role for regulated rep gene expression in rAAV production and have facilitated the development of a new AAV helper plasmid that increases vector production eightfold over currently used constructs.

摘要

最近,通过使用腺相关病毒(AAV)载体在体内实现长期基因转移且无明显免疫反应取得了成功(X. Xiao、J. Li和R. J. Samulski,《病毒学杂志》70:8098 - 8108,1996年),这鼓励了该载体在人类基因治疗方面的进一步发展。目前,研究集中在利用腺病毒(Ad)感染细胞中的双质粒辅助载体系统来产生高滴度载体。为了研究AAV复制(rep)基因对重组AAV(rAAV)载体产生的影响,我们构建了一系列AAV辅助质粒,这些质粒含有强异源启动子以取代内源性p5启动子。尽管实现了rep基因的高水平表达,但在没有Ad感染的情况下,rAAV DNA未能复制。此外,Rep78/68的无节制过表达导致在有Ad存在时rAAV产量大幅降低(10⁴⁻⁵与10⁷⁻⁸相比)。相反,在类似条件下,Rep78/68表达降低导致rAAV产量高得多(10⁹)。分子特征表明,rep基因的过表达降低了rAAV DNA复制并严重抑制了衣壳(cap)基因表达。有趣的是,较低的rep水平增强了cap基因表达并支持正常的rAAV DNA复制。这些研究表明,rep基因的调控表达在rAAV产生中起关键作用,并促进了一种新的AAV辅助质粒的开发,该质粒使载体产量比目前使用的构建体提高了八倍。

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本文引用的文献

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