Transposon-based vector systems for gene therapy clinical trials: challenges and considerations.

Chang Gung medical journal Pub Date : 2011-11-01
Yaa-Jyuhn James Meir, Sareina Chiung-Yuan Wu
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Abstract

Much progress has been made in gene therapy, but significant challenges remain. One is development of a range of different tools that can be used for different therapeutic purposes. Another is site-specific gene targeting for safe and faithful therapeutic gene expression. Viruses have long been considered the most promising tools for human gene therapy. However, fatal side effects associated with viral vectors have hampered their clinical application. DNA transposons, widely utilized for decades as genetic tools in plants and insects, are now emerging as viable vectors for gene therapy. In this article, we will give a brief review of the adverse effects associated with virus-based gene therapy followed by a glimpse of the adeno-associated virus vector system, which is currently the most promising viral vector for gene therapy. The development of DNA transposon-based gene delivery systems and the advantages and limits of the most commonly used DNA transposon systems, Sleeping Beauty, Tol2, and piggyBac, will be extensively discussed Finally, we will focus on the most promising transposon system for gene therapy, piggyBac. Challenges and considerations for advancing piggyBac for therapeutic application will be critically addressed.

基于转座子的基因治疗临床试验载体系统:挑战和考虑。
基因治疗已经取得了很大进展,但仍然存在重大挑战。一个是开发一系列不同的工具,可以用于不同的治疗目的。另一种是位点特异性基因靶向,用于安全可靠的治疗性基因表达。病毒一直被认为是人类基因治疗最有前途的工具。然而,与病毒载体相关的致命副作用阻碍了它们的临床应用。DNA转座子作为植物和昆虫的遗传工具被广泛使用了几十年,现在正在成为基因治疗的可行载体。在本文中,我们将简要回顾与基于病毒的基因治疗相关的副作用,然后简要介绍腺相关病毒载体系统,这是目前最有前途的基因治疗病毒载体。本文将广泛讨论基于DNA转座子的基因传递系统的发展,以及最常用的DNA转座子系统睡美人、Tol2和piggyBac的优点和局限性。最后,我们将重点讨论最有前途的基因治疗转座子系统piggyBac。将重点讨论推进piggyBac治疗应用的挑战和考虑因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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