Imaging synaptic inhibition in transgenic mice expressing the chloride indicator, Clomeleon.

Brain cell biology Pub Date : 2006-12-01 Epub Date: 2008-04-05 DOI:10.1007/s11068-008-9019-6

Ken Berglund, Wolfram Schleich, Patrik Krieger, Li Shen Loo, Dongqing Wang, Nell B Cant, Guoping Feng, George J Augustine, Thomas Kuner

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引用次数: 88

Abstract

We describe here a molecular genetic approach for imaging synaptic inhibition. The thy-1 promoter was used to express high levels of Clomeleon, a ratiometric fluorescent indicator for chloride ions, in discrete populations of neurons in the brains of transgenic mice. Clomeleon was functional after chronic expression and provided non-invasive readouts of intracellular chloride concentration ([Cl(-)](i)) in brain slices, allowing us to quantify age-dependent declines in resting [Cl(-)](i) during neuronal development. Activation of hippocampal interneurons caused [Cl(-)](i) to rise transiently in individual postsynaptic pyramidal neurons. [Cl(-)](i) increased in direct proportion to the amount of inhibitory transmission, with peak changes as large as 4 mM. Integrating responses over populations of pyramidal neurons allowed sensitive detection of synaptic inhibition. Thus, Clomeleon imaging permits non-invasive, spatiotemporally resolved recordings of [Cl(-)](i) in a large variety of neurons, opening up new opportunities for imaging synaptic inhibition and other forms of chloride signaling.

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表达氯离子指示剂Clomeleon的转基因小鼠突触抑制成像。

我们在这里描述了成像突触抑制的分子遗传学方法。他们利用thy-1启动子在转基因小鼠大脑的离散神经元群中表达高水平的氯离子比率荧光指示剂Clomeleon。Clomeleon在慢性表达后具有功能，并提供了脑切片中细胞内氯离子浓度([Cl(-)](i))的非侵入性读数，使我们能够量化神经元发育过程中静止[Cl(-)](i)的年龄依赖性下降。海马中间神经元的激活导致个体突触后锥体神经元中的[Cl(-)](i)瞬间升高。[Cl(-)](i)与抑制传递量成正比增加，峰值变化可达4 mM。锥体神经元群体的综合反应可以灵敏地检测突触抑制。因此，Clomeleon成像允许非侵入性、时空分辨记录大量神经元中的[Cl(-)](i)，为成像突触抑制和其他形式的氯离子信号提供了新的机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Brain cell biology

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