Long-lived retrograde fluorescent labeling of corticospinal neurons in the living animal

Brain research. Brain research protocols Pub Date : 2004-08-01 DOI:10.1016/j.brainresprot.2004.05.002

Takeshi Suzuki , Yoshihiro Abe , Daniel S McGehee , J.Russel Keath , Hiroshi Yajima , Kamal Sharma , James R Brorson

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引用次数: 6

Abstract

For pathophysiological studies, it is advantageous to label specific neuronal populations in living animals. This study aimed to establish a method for stable and long-lasting fluorescent labeling of corticospinal neurons in the living animal. The two fluorescent dyes Fluoro-Red and Fluoro-Green were injected in the cervical spinal cord of anesthetized newborn rats. After a recovery period, treated rats were returned to the mother. After 24 h and 14 days, fixed brain sections revealed wide-spread fluorescence in elongated or pyramidal-shaped cell profiles in a discrete internal cortical layer, consistent with layer V pyramidal cells. Labeled neurons displayed spontaneous synaptic activity using the slice patch clamp method. These results suggest that these dyes are effective tools for pathophysiological and slice patch clamp studies focused on specific neuron groups.

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活体动物皮质脊髓神经元的长寿命逆行荧光标记

在病理生理学研究中，标记活体动物的特定神经元群是有利的。本研究旨在建立一种稳定、持久的活体动物皮质脊髓神经元荧光标记方法。在麻醉新生大鼠颈脊髓内注射荧光染料氟红、氟绿。经过一段恢复期后，将治疗过的大鼠放回母鼠身边。24小时和14天后，固定脑切片显示在离散的内皮质层的细长或锥体形细胞剖面中广泛分布荧光，与V层锥体细胞一致。切片膜片钳法观察标记神经元的自发突触活动。这些结果表明，这些染料是针对特定神经元群进行病理生理学和片钳研究的有效工具。

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Brain research. Brain research protocols

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