Simultaneous Ca2+ Imaging and Optogenetic Stimulation of Cortical Astrocytes in Adult Murine Brain Slices

Q2 Neuroscience
Lakshmini Balachandar, Karla A. Montejo, Eleane Castano, Melissa Perez, Carolina Moncion, Jeremy W. Chambers, J. Luis Lujan, Jorge Riera Diaz
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引用次数: 8

Abstract

Astrocytes are actively involved in a neuroprotective role in the brain, which includes scavenging reactive oxygen species to minimize tissue damage. They also modulate neuroinflammation and reactive gliosis prevalent in several brain disorders like epilepsy, Alzheimer's, and Parkinson's disease. In animal models, targeted manipulation of astrocytic function via modulation of their calcium (Ca2+) oscillations by incorporating light-sensitive cation channels like Channelrhodopsin-2 (ChR2) offers a promising avenue in influencing the long-term progression of these disorders. However, using adult animals for Ca2+ imaging poses major challenges, including accelerated deterioration of in situ slice health and age- related changes. Additionally, optogenetic preparations necessitate usage of a red-shifted Ca2+ indicator like Rhod-2 AM to avoid overlapping light issues between ChR2 and the Ca2+ indicator during simultaneous optogenetic stimulation and imaging. In this article, we provide an experimental setting that uses live adult murine brain slices (2-5 months) from a knock-in model expressing Channelrhodopsin-2 (ChR2(C128S)) in cortical astrocytes, loaded with Rhod-2 AM to elicit robust Ca2+ response to light stimulation. We have developed and standardized a protocol for brain extraction, sectioning, Rhod-2 AM loading, maintenance of slice health, and Ca2+ imaging during light stimulation. This has been successfully applied to optogenetically control adult cortical astrocytes, which exhibit synchronous patterns of Ca2+ activity upon light stimulation, drastically different from resting spontaneous activity. © 2020 Wiley Periodicals LLC.

Basic Protocol 1: Experimental preparation, setup, slice preparation and Rhod-2 AM staining

Basic Protocol 2: Image acquisition and analysis

成年小鼠脑片皮质星形胶质细胞同时Ca2+成像和光遗传学刺激
星形胶质细胞在大脑中积极参与神经保护作用,包括清除活性氧以减少组织损伤。它们还可以调节神经炎症和反应性神经胶质瘤,这些神经胶质瘤在癫痫、阿尔茨海默氏症和帕金森病等几种脑部疾病中普遍存在。在动物模型中,通过结合像channelrhodopin -2 (ChR2)这样的光敏阳离子通道来调节它们的钙(Ca2+)振荡来靶向操纵星形细胞功能,为影响这些疾病的长期进展提供了一条有希望的途径。然而,使用成年动物进行Ca2+成像存在重大挑战,包括原位切片健康和年龄相关变化的加速恶化。此外,光遗传制备需要使用红移Ca2+指示剂,如Rhod-2 AM,以避免在同时光遗传刺激和成像期间ChR2和Ca2+指示剂之间的重叠光问题。在本文中,我们提供了一个实验环境,使用来自皮质星形胶质细胞中表达Rhod-2 AM的通道视紫红质-2 (ChR2(C128S))的敲入模型的活成年小鼠脑切片(2-5个月),以引起对光刺激强烈的Ca2+反应。我们已经开发并标准化了一种方案,用于脑提取、切片、rhod - 2am加载、切片健康维护和光刺激期间的Ca2+成像。这已经成功地应用于光遗传学控制的成人皮质星形胶质细胞,其在光刺激下表现出Ca2+活性的同步模式,与静息自发活动截然不同。©2020 Wiley期刊有限公司基本协议1:实验准备,设置,切片制备和Rhod-2 AM染色基本协议2:图像采集和分析
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来源期刊
Current Protocols in Neuroscience
Current Protocols in Neuroscience Neuroscience-Neuroscience (all)
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期刊介绍: Current Protocols in Neuroscience is a one-stop resource for finding and adapting the best models and methods for all types of neuroscience experiments. Updated every three months in all formats, CPNS is constantly evolving to keep pace with the very latest discoveries and developments. A year of these quarterly updates is included in the initial CPNS purchase price.
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