Safety considerations in vector development.

J C Kappes, X Wu
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引用次数: 43

Abstract

The inadvertent production of replication competent retrovirus (RCR) constitutes the principal safety concern for the use of lentiviral vectors in human clinical protocols. Because of limitations in animal models to evaluate lentiviral vectors for their potential to recombine and induce disease, the vector design itself should ensure against the emergence of RCR in vivo. Issues related to RCR generation and one approach to dealing with this problem are discussed in this chapter. To assess the risk of generating RCR, a highly sensitive biological assay was developed to specifically detect vector recombination in transduced cells. Analysis of lentiviral vector stocks has shown that recombination occurs during reverse transcription in primary target cells. Rejoining of viral protein-coding sequences of the packaging construct and cis-acting sequences of the vector was demonstrated to generate env-minus recombinants (LTR-gag-pol-LTR). Mobilization of recombinant lentiviral genomes was also demonstrated but was dependent on pseudotyping of the vector core with an exogenous envelope protein. 5' sequence analysis has demonstrated that recombinants consist of U3, R, U5, and the psi packaging signal joined with an open gag coding region. Analysis of the 3' end has mapped the point of vector recombination to the poly(A) tract of the packaging construct's mRNA. The state-of-the-art third generation packaging construct and SIN vector also have been shown to generate env-minus proviral recombinants capable of mobilizing retroviral DNA when pseudotyped with an exogenous envelope protein. A new class of HIV-based vector (trans-vector) was recently developed that splits the gag-pol component of the packaging construct into two parts: one that expresses Gag/Gag-Pro and another that expresses Pol (RT and IN) fused with Vpr. Unlike other lentiviral vectors, the trans-vector has not been shown to form recombinants capable of DNA mobilization. These results indicate the trans-vector design prevents the generation of env-minus recombinant lentivirus containing a functional gag-pol structure (LTR-gag-pol-LTR), which is absolutely required for retroviral DNA mobilization and the emergence of RCR. Quality assurance based on monitoring for RCR may have limitations as a predictor of safety in vivo, especially in the long term. The demonstration of lentivirus infection via alternative entry mechanisms supports this notion. Therefore, the approach of monitoring trans-vector stocks for env-minus recombinant virus in vitro as a surrogate marker for the possible emergence of RCR in vivo should represent a significant advancement in vector safety quality assurance.

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媒介发展中的安全考虑。
在人类临床方案中使用慢病毒载体时,无意中产生复制能力强的逆转录病毒(RCR)构成了主要的安全问题。由于动物模型在评估慢病毒载体重组和诱导疾病的潜力方面存在局限性,因此载体设计本身应确保不会在体内出现RCR。本章讨论了与RCR生成相关的问题以及处理该问题的一种方法。为了评估产生RCR的风险,开发了一种高度敏感的生物测定方法,专门检测转导细胞中的载体重组。慢病毒载体的分析表明,重组发生在原代靶细胞的逆转录过程中。将包装构建体的病毒蛋白编码序列与载体的顺式作用序列重新连接,可以产生env-minus重组体(LTR-gag-pol-LTR)。重组慢病毒基因组的动员也被证实,但依赖于外源包膜蛋白载体核心的假分型。5'序列分析表明,重组体由U3、R、U5和psi包装信号组成,并连接一个开放的gag编码区。对3′端的分析将载体重组的点映射到包装结构mRNA的聚(A)链上。最先进的第三代包装结构和SIN载体也被证明可以产生具有外源包膜蛋白假型时能够动员逆转录病毒DNA的env-前病毒重组。一种新的基于hiv的载体(反式载体)最近被开发出来,它将包装结构的Gag- Pol成分分成两部分:一部分表达Gag/Gag- pro,另一部分表达与Vpr融合的Pol (RT和IN)。与其他慢病毒载体不同,反式载体尚未显示出形成能够动员DNA的重组体。这些结果表明,反式载体设计阻止了含有功能性gag-pol结构的env-minus重组慢病毒的产生(LTR-gag-pol-LTR),这是逆转录病毒DNA动员和RCR出现所必需的。基于RCR监测的质量保证作为体内安全性的预测指标可能存在局限性,尤其是在长期内。慢病毒通过不同的进入机制感染的证据支持了这一观点。因此,在体外监测env-minus重组病毒的反载体储存,作为体内可能出现RCR的替代标记,应该是载体安全质量保证方面的重大进展。
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