Herpes simplex virus-mediated gene transfer as a tool for neuropsychiatric research.

W. Carlezon, E. Nestler, R. Neve
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引用次数: 80

Abstract

There is an enormous initiative to establish causal relationships between brain biology (including patterns of gene expression) and behavior. Unfortunately, genetic intervention is not accomplished easily in the brain. One strategy is to engineer and deliver to the brain specialized viral vectors that carry a gene (or genes) of interest, thereby exploiting the natural ability of viruses to insert genetic information into cells. When delivered to the brain, these vectors cause infected cells to increase expression of the genes of interest. Viral vectors are particularly useful when the goal is to manipulate expression of a single gene in a specific brain region, at a specific time, and in animals that developed normally. There are several types of virus that can be adapted for use as viral vectors, including those based on herpes simplex virus (HSV-1), adenovirus (AV), adeno-associated virus (AAV), and lentivirus. Although each vector has its own unique advantages and disadvantages, this rapidly evolving technology has the potential to revolutionize neuropsychiatric research by offering the opportunity to establish, with anatomical and temporal specificity, causal relations between altered expression of individual gene products and alterations in complex behavior.
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单纯疱疹病毒介导的基因转移作为神经精神病学研究的工具。
建立大脑生物学(包括基因表达模式)和行为之间的因果关系是一项巨大的倡议。不幸的是,基因干预在大脑中并不容易完成。一种策略是设计并将携带感兴趣的基因(或多个基因)的专门病毒载体传递给大脑,从而利用病毒将遗传信息插入细胞的自然能力。当传递到大脑时,这些载体导致受感染的细胞增加感兴趣的基因的表达。当目标是在特定的大脑区域、特定的时间和正常发育的动物中操纵单个基因的表达时,病毒载体特别有用。有几种类型的病毒可以用作病毒载体,包括基于单纯疱疹病毒(HSV-1)、腺病毒(AV)、腺相关病毒(AAV)和慢病毒的病毒。尽管每种载体都有其独特的优点和缺点,但这种快速发展的技术有可能通过提供机会建立具有解剖学和时间特异性的个体基因产物表达改变与复杂行为改变之间的因果关系,从而彻底改变神经精神病学研究。
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