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神经系统中的基因转移及其对突触前神经元示踪的影响。

Gene transfer in the nervous system and implications for transsynaptic neuronal tracing.

机构信息

Department of Anatomy and Neurobiology, Kyung Hee University, Seoul, Republic of Korea.

出版信息

Expert Opin Biol Ther. 2010 May;10(5):763-72. doi: 10.1517/14712591003796538.

DOI:10.1517/14712591003796538
PMID:20367126
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2866520/
Abstract

IMPORTANCE OF THE FIELD

Neuronal circuitries are determined by specific synaptic connections and they provide the cellular basis of cognitive processes and behavioral functions. To investigate neuronal circuitries, tracers are typically used to identify the original neurons and their projection targets.

AREAS COVERED IN THIS REVIEW

Traditional tracing methods using chemical tracers have major limitations such as non-specificity. In this review, we highlight novel genetic tracing approaches that enable visualization of specific neuronal pathways by introducing cDNA encoding a transsynaptic tracer. In contrast to conventional tracing methods, these genetic approaches use cell-type-specific promoters to express transsynaptic tracers such as wheat germ agglutinin and C-terminal fragment of tetanus toxin, which allows labeling of either the input or output populations and connections of specific neuronal type.

WHAT THE READER WILL GAIN

Specific neuronal circuit information by these genetic approaches will allow more precise, comprehensive and novel information about individual neural circuits and their function in normal and diseased brains.

TAKE HOME MESSAGE

Using tracer gene transfer, neuronal circuit plasticity after traumatic injury or neurodegenerative diseases can be visualized. Also, this can provide a good marker for evaluation of therapeutic effects of neuroprotective or neurotrophic agents.

摘要

重要性的领域

神经元电路是由特定的突触连接决定的,它们为认知过程和行为功能提供了细胞基础。为了研究神经元电路,通常使用示踪剂来识别原始神经元及其投射靶标。

这篇综述涵盖的领域

使用化学示踪剂的传统示踪方法有很大的局限性,例如非特异性。在这篇综述中,我们强调了新的遗传示踪方法,通过引入编码顺式突触示踪剂的 cDNA,可以可视化特定的神经元通路。与传统的示踪方法相比,这些遗传方法使用细胞类型特异性启动子来表达顺式突触示踪剂,如麦胚凝集素和破伤风毒素 C 端片段,这允许标记特定神经元类型的输入或输出群体和连接。

读者将获得什么

通过这些遗传方法获得的特定神经元回路信息将提供关于个体神经回路及其在正常和患病大脑中的功能的更精确、全面和新颖的信息。

带回家的信息

通过示踪基因转移,可以可视化创伤后或神经退行性疾病后的神经元回路可塑性。此外,这可以为评估神经保护或神经营养剂的治疗效果提供一个良好的标记。

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