Fabre Emmanuelle E, Bigey Pascal, Orsini Cécile, Scherman Daniel
INSERM U640, F-75006 Paris, France.
J Gene Med. 2006 May;8(5):636-45. doi: 10.1002/jgm.878.
High transgene expression is generally expected after gene transfer. However, different level, kinetics and localization of expression might be needed for relevant therapeutic applications. Former studies have compared various promoter regions driving gene expression leading to conflicting results. In the present work, two promoter families have been compared using the efficient in vivo intramuscular electrotransfer technique.
Three promoter regions were constructed by associating the strong ubiquitous cytomegalovirus (CMV) enhancer-promoter to its homologous intron A or to a heterologous intron, or to a hybrid intron. Promoter regions derived from the muscle creatine kinase (MCK) promoter were also studied. The expression of the same transgene (SeAP or neurotrophin-3) under control of these different promoters was compared after plasmid electrotransfer in mouse tibialis-cranialis skeletal muscle.
Heterologous intron association to the CMV promoter did not modify gene expression kinetics nor increase gene expression level. Usefulness of intron A or hybrid intron association to the CMV promoter depended on the gene. The various MCK promoters drove efficient gene expression but lower than that obtained with the CMV promoter. Furthermore, peak value was reached earlier with MCK promoter regions (14 days).
For applications of gene transfer restricted to skeletal muscle, the MCK promoter or a MCK promoter variant would be a promising alternative to the CMV promoter. Indeed, it has been demonstrated that the use of MCK promoter limits humoral and cell-mediated immune responses. Furthermore, the MCK promoter decreases the initial expression peak that may be detrimental, drives a sustained gene expression, and improves gene transfer safety.
基因转移后通常期望有高转基因表达。然而,相关治疗应用可能需要不同水平、动力学和定位的表达。先前的研究比较了驱动基因表达的各种启动子区域,结果相互矛盾。在本研究中,使用高效的体内肌肉电转技术比较了两个启动子家族。
通过将强的普遍存在的巨细胞病毒(CMV)增强子-启动子与其同源内含子A或异源内含子或杂交内含子相连,构建了三个启动子区域。还研究了源自肌肉肌酸激酶(MCK)启动子的启动子区域。在小鼠胫骨前肌骨骼肌中进行质粒电转后,比较了这些不同启动子控制下相同转基因(分泌型碱性磷酸酶或神经营养因子-3)的表达。
CMV启动子与异源内含子相连不会改变基因表达动力学,也不会增加基因表达水平。CMV启动子与内含子A或杂交内含子相连的有效性取决于基因。各种MCK启动子驱动高效的基因表达,但低于CMV启动子获得的表达水平。此外,MCK启动子区域(14天)达到峰值的时间更早。
对于仅限于骨骼肌的基因转移应用,MCK启动子或MCK启动子变体将是CMV启动子的一个有前景的替代方案。事实上,已证明使用MCK启动子可限制体液和细胞介导的免疫反应。此外,MCK启动子降低了可能有害的初始表达峰值,驱动持续的基因表达,并提高了基因转移的安全性。
