基于双光子光遗传学的健康和慢性低灌注小鼠神经元连接性评估。

Two-photon optogenetics-based assessment of neuronal connectivity in healthy and chronic hypoperfusion mice.

作者信息

Yoshioka Masaki, Takahashi Manami, Kershaw Jeff, Handa Mariko, Takada Ayaka, Takuwa Hiroyuki

机构信息

National Institutes for Quantum Science and Technology, Institute for Quantum Life Science, Quantum Neuromapping and Neuromodulation Team, Chiba, Japan.

Chiba University, Graduate School of Medicine, Department of Neurological Surgery, Chiba, Japan.

出版信息

Neurophotonics. 2024 Jul;11(3):035009. doi: 10.1117/1.NPh.11.3.035009. Epub 2024 Sep 28.

DOI:10.1117/1.NPh.11.3.035009

PMID:39345733

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11436461/

Abstract

SIGNIFICANCE

Two-photon optogenetics and simultaneous calcium imaging can be used to visualize the response of surrounding neurons with respect to the activity of an optically stimulated target neuron, providing a direct method to assess neuronal connectivity.

AIM

We aim to develop a two-photon optogenetics-based method for evaluating neuronal connectivity, compare it to the existing indirect resting-state synchrony method, and investigate the application of the method to brain pathophysiology.

APPROACH

C1V1-mScarlet was introduced into GCaMP6s-expressing transgenic mice with an adeno-associated virus. Optical stimulation of a single target neuron and simultaneous calcium imaging of the target and surrounding cells were performed. Neuronal connectivity was evaluated from the correlation between the fluorescence intensity of the target and surrounding cells.

RESULTS

The neuronal connectivity in the living brain was evaluated using two-photon optogenetics. However, resting-state synchrony was not always consistent with two-photon optogenetics-based connectivity. Comparison with neuronal synchrony measured during sensory stimulation suggested that the disagreement was due to external sensory input. Two-photon optogenetics-based connectivity significantly decreased in the common carotid artery occlusion model, whereas there was no significant change in the control group.

CONCLUSIONS

We successfully developed a direct method to evaluate neuronal connectivity in the living brain using two-photon optogenetics. The technique was successful in detecting connectivity impairment in hypoperfusion model mice.

摘要

意义

双光子光遗传学和同步钙成像可用于可视化周围神经元对光学刺激的目标神经元活动的反应，提供一种评估神经元连接性的直接方法。

目的

我们旨在开发一种基于双光子光遗传学的评估神经元连接性的方法，将其与现有的间接静息态同步方法进行比较，并研究该方法在脑病理生理学中的应用。

方法

用腺相关病毒将C1V1-mScarlet导入表达GCaMP6s的转基因小鼠。对单个目标神经元进行光学刺激，并对目标和周围细胞进行同步钙成像。根据目标和周围细胞荧光强度之间的相关性评估神经元连接性。

结果

使用双光子光遗传学评估了活脑内的神经元连接性。然而，静息态同步并不总是与基于双光子光遗传学的连接性一致。与感觉刺激期间测量的神经元同步性比较表明，不一致是由于外部感觉输入。在颈总动脉闭塞模型中，基于双光子光遗传学的连接性显著降低，而对照组无显著变化。

结论

我们成功开发了一种使用双光子光遗传学评估活脑内神经元连接性的直接方法。该技术成功检测到灌注不足模型小鼠的连接性损伤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/906b/11436461/fed87a702dc1/NPh-011-035009-g001.jpg

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基于双光子光遗传学的健康和慢性低灌注小鼠神经元连接性评估。

Two-photon optogenetics-based assessment of neuronal connectivity in healthy and chronic hypoperfusion mice.

作者信息

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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