利用改良膜靶向GCaMP报告基因监测星形胶质细胞钙微域。

Neuron glia biology Pub Date : 2010-08-01 Epub Date: 2010-12-16 DOI:10.1017/S1740925X10000219
Eiji Shigetomi, Sebastian Kracun, Baljit S Khakh
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引用次数: 81

摘要

星形胶质细胞参与大脑突触和脑血管的调节。这些功能受到细胞内钙信号的调节,这被认为是星形胶质细胞兴奋性的一种形式。在最近的一项研究中,我们报道了用膜系结结构域Lck修饰遗传编码钙指示物(GECI) GCaMP2以产生Lck-GCaMP2。这种GECI使我们能够检测到新的微域钙信号。微域在本质上是随机的和“斑点”的。为了更可靠地检测这些信号,在本研究中,我们进一步修饰Lck-GCaMP2,使其携带GCaMP2片段的三个突变(EGFP中的M153K、T203V和CaM结构域的N60D),从而产生Lck-GCaMP3。我们直接比较了Lck-GCaMP2和Lck-GCaMP3,通过评估它们监测几种星形细胞钙信号的能力,重点是点状微域。我们的数据表明,Lck-GCaMP3在基本荧光强度、信噪比和检测微域的能力方面比Lck-GCaMP2好2到4倍。因此,使用Lck-GCaMP3代表了一种显著改进的方法来监测星形胶质细胞钙信号,包括微结构域,并将有助于详细探索其分子机制和生理作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Monitoring astrocyte calcium microdomains with improved membrane targeted GCaMP reporters.

Monitoring astrocyte calcium microdomains with improved membrane targeted GCaMP reporters.

Monitoring astrocyte calcium microdomains with improved membrane targeted GCaMP reporters.

Monitoring astrocyte calcium microdomains with improved membrane targeted GCaMP reporters.

Astrocytes are involved in synaptic and cerebrovascular regulation in the brain. These functions are regulated by intracellular calcium signalling that is thought to reflect a form of astrocyte excitability. In a recent study, we reported modification of the genetically encoded calcium indicator (GECI) GCaMP2 with a membrane-tethering domain, Lck, to generate Lck-GCaMP2. This GECI allowed us to detect novel microdomain calcium signals. The microdomains were random and 'spotty' in nature. In order to detect such signals more reliably, in the present study we further modified Lck-GCaMP2 to carry three mutations in the GCaMP2 moiety (M153K, T203V within EGFP and N60D in the CaM domain) to generate Lck-GCaMP3. We directly compared Lck-GCaMP2 and Lck-GCaMP3 by assessing their ability to monitor several types of astrocyte calcium signals with a focus on spotty microdomains. Our data show that Lck-GCaMP3 is between two- and four-times better than Lck-GCaMP2 in terms of its basal fluorescence intensity, signal-to-noise and its ability to detect microdomains. The use of Lck-GCaMP3 thus represents a significantly improved way to monitor astrocyte calcium signals, including microdomains, and will facilitate detailed exploration of their molecular mechanisms and physiological roles.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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