Wood Matthew, Yin Haifang, McClorey Graham
Department of Physiology, Anatomy and Genetics, University of Oxford, United Kingdom.
PLoS Genet. 2007 Jun;3(6):e109. doi: 10.1371/journal.pgen.0030109.
Conventional gene therapy has focused largely on gene replacement in target cells. However, progress from basic research to the clinic has been slow for reasons relating principally to the challenges of heterologous DNA delivery and regulation in vivo. Alternative approaches targeting RNA have the potential to circumvent some of these difficulties, particularly as the active therapeutic molecules are usually short oligonucleotides and the target gene transcript is under endogenous regulation. RNA-based strategies offer a series of novel therapeutic applications, including altered processing of the target pre-mRNA transcript, reprogramming of genetic defects through mRNA repair, and the targeted silencing of allele- or isoform-specific gene transcripts. This review examines the potential of RNA therapeutics, focusing on antisense oligonucleotide modification of pre-mRNA splicing, methods for pre-mRNA trans-splicing, and the isoform- and allele-specific applications of RNA interference.
传统基因治疗主要集中于靶细胞中的基因替换。然而,从基础研究到临床的进展一直缓慢,主要原因在于体内异源DNA递送和调控面临的挑战。靶向RNA的替代方法有可能规避其中一些困难,特别是因为活性治疗分子通常是短寡核苷酸,且靶基因转录本受内源性调控。基于RNA的策略提供了一系列新颖的治疗应用,包括改变靶前体mRNA转录本的加工、通过mRNA修复对遗传缺陷进行重编程,以及等位基因或异构体特异性基因转录本的靶向沉默。本文综述探讨了RNA治疗的潜力,重点关注前体mRNA剪接的反义寡核苷酸修饰、前体mRNA反式剪接方法,以及RNA干扰的异构体和等位基因特异性应用。