Riu Efren, Grimm Dirk, Huang Zan, Kay Mark A
Department of Pediatrics, Stanford University School of Medicine, Stanford, CA 94305, USA.
Hum Gene Ther. 2005 May;16(5):558-70. doi: 10.1089/hum.2005.16.558.
Persistence of transgene expression is a major limitation for nonvirus-mediated gene therapy approaches. We have suggested that covalent linkage of bacterial DNA to the expression cassette plays a critical role in transcriptional silencing of transgenes in vivo. To gain insight into the role of the covalent linkage of plasmid DNA to the expression cassette and transcriptional repression, and whether this silencing effect could be alleviated by altering the molecular structure of vector DNAs in vivo, we generated a scheme for converting routine plasmids into a purified expression cassette, free of bacterial DNA after gene transfer in vivo. To do this, the human alpha-1-antitrypsin (hAAT) and human clotting factor IX (hfIX) reporter genes were flanked by two ISceI endonuclease recognition sites, and coinjected together with a plasmid encoding the I-SceI cDNA or a control plasmid into mouse liver. Two weeks after DNA administration, mice injected with the reporter gene alone or with the irrelevant control plasmid showed low serum levels of hAAT or hFIX, which remained low throughout the length of the experiment. However, animals that expressed I-SceI had a 5- to 10-fold increase in serum hAAT or hFIX that persisted for at least 8 months (length of study). Expression of I-SceI resulted in cleavage and excision of the expression cassettes from the plasmid backbone, forming mostly circles devoid of bacterial DNA sequences, as established by a battery of different Southern blot and polymerase chain reaction analyses in both C57BL/6 and scid treated mice. In contrast, only the input parental circular plasmid DNA band was detected in mice injected with the reporter gene alone, or an I-SceI plasmid together with the hAAT reporter plasmid lacking the I-SceI sites. Similar results were obtained when the Flp recombinase system was used to make mini-plasmids in mouse liver in vivo. This study presents further independent evidence that removing the covalent linkage between plasmid and transgene sequences leads to a marked increase in and persistence of transgene expression. Unraveling the mechanisms by which the covalent linkage of bacterial DNA to the expression cassette is connected to gene silencing is fundamental to establishing the mechanism of transcriptional regulation in mammalian systems and will be important for the development of versatile nonviral vectors that can be used to achieve persistent gene expression in different cell types.
转基因表达的持续性是非病毒介导的基因治疗方法的一个主要限制因素。我们曾提出细菌DNA与表达盒的共价连接在体内转基因的转录沉默中起关键作用。为了深入了解质粒DNA与表达盒的共价连接及转录抑制的作用,以及这种沉默效应在体内是否可以通过改变载体DNA的分子结构来缓解,我们设计了一个方案,在体内基因转移后将常规质粒转化为不含细菌DNA的纯化表达盒。为此,人α-1-抗胰蛋白酶(hAAT)和人凝血因子IX(hfIX)报告基因两侧有两个I-SceI内切酶识别位点,并与编码I-SceI cDNA的质粒或对照质粒一起共注射到小鼠肝脏中。DNA给药两周后,单独注射报告基因或无关对照质粒的小鼠血清中hAAT或hFIX水平较低,在整个实验过程中一直保持较低水平。然而,表达I-SceI的动物血清hAAT或hFIX增加了5至10倍,并持续了至少8个月(研究时长)。通过一系列不同的Southern印迹和聚合酶链反应分析证实,在C57BL/6和经scid处理的小鼠中,I-SceI的表达导致表达盒从质粒骨架上切割和切除,形成大多不含细菌DNA序列的环状结构。相比之下,在单独注射报告基因或与缺乏I-SceI位点的hAAT报告质粒一起注射I-SceI质粒的小鼠中,仅检测到输入的亲本环状质粒DNA条带。当使用Flp重组酶系统在小鼠肝脏体内构建微型质粒时,也获得了类似的结果。这项研究提供了进一步的独立证据,即去除质粒与转基因序列之间的共价连接会导致转基因表达显著增加并持续。阐明细菌DNA与表达盒的共价连接与基因沉默相关的机制,对于建立哺乳动物系统中的转录调控机制至关重要,并且对于开发可用于在不同细胞类型中实现持续基因表达的通用非病毒载体也很重要。
