A High-Efficiency Synthetic Promoter That Drives Transgene Expression Selectively in Noradrenergic Neurons

报告基因 发起人 转基因 分子生物学 生物 基因表达 塔塔盒子 调节顺序 基因 抄写(语言学) 响应元素 遗传学 语言学 哲学
作者
Dong‐Youn Hwang,William A. Carlezon,Ole Isacson,Kwang‐Soo Kim
出处
期刊:Human Gene Therapy [Mary Ann Liebert, Inc.]
卷期号:12 (14): 1731-1740 被引量:172
标识
DOI:10.1089/104303401750476230
摘要

Gene promoter systems that drive high-level, long-term, and cell-specific transgene expression are of great interest because of their potential utility for gene therapy. To generate an efficient promoter system specific for noradrenergic (NA) neurons, we multimerized an NA-specific cis-regulatory element (PRS2) identified in the human dopamine β-hydroxylase (hDBH) promoter, and combined it with a minimal promoter (containing a TATA box and transcription start site). Forms of this synthetic promoter that contain 8 or more copies of PRS2 were >50 times more effective than the 1.15-kb hDBH promoter at driving reporter gene expression in cell lines originated from NA neurons. Neither the synthetic promoter nor the 1.15-kb hDBH promoter drove reporter gene expression in nonneuronal cells. Microinjections of an adenoviral vector containing the synthetic promoter directly into rat brain caused more strict NA-specific reporter gene expression than that caused by a vector containing the 1.15-kb hDBH promoter when the targeted region contained large numbers of NA neurons (locus coeruleus). Furthermore, the vector containing the synthetic promoter caused less nonspecific ("leaky") reporter gene expression than that caused by the vector containing the 1.15-kb hDBH promoter when the targeted region was devoid of NA neurons (cerebellum, dentate gyrus). Together, these studies provide in vitro and in vivo evidence that this novel synthetic promoter can target transgene expression to NA neurons even more efficiently and selectively than the naturally occurring, 1.15-kb hDBH promoter.
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