用双光子显微镜对皮层 1 层的皮层振荡进行电压成像。

Voltage Imaging of Cortical Oscillations in Layer 1 with Two-Photon Microscopy.

机构信息

Optical Neuroimaging Unit, Okinawa Institute of Science and Technology Graduate University, Okinawa 904-0495, Japan

Neuronal Rhythms in Movement Unit, Okinawa Institute of Science and Technology Graduate University, Okinawa 904-0495, Japan.

出版信息

eNeuro. 2020 May 22;7(3). doi: 10.1523/ENEURO.0274-19.2020. Print 2020 May/Jun.

DOI:10.1523/ENEURO.0274-19.2020

PMID:32321770

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7253639/

Abstract

Membrane voltage oscillations in layer 1 (L1) of primary sensory cortices might be important indicators of cortical gain control, attentional focusing, and signal integration. However, electric field recordings are hampered by the low seal resistance of electrodes close to the brain surface. To study L1 membrane voltage oscillations, we synthesized a new voltage-sensitive dye, di1-ANNINE (anellated hemicyanine)-6plus, that can diffuse into tissue. We applied it with a new surgery, leaving the dura intact but allowing injection of large quantities of staining solution, and imaged cortical membrane potential oscillations with two-photon microscopy depth-resolved (25-100 μm below dura) in anesthetized and awake mice. We found delta (0.5-4 Hz), theta (4-10 Hz), low beta (10-20 Hz), and low gamma (30-40 Hz) oscillations. All oscillations were stronger in awake animals. While the power of delta, theta, and low beta oscillations increased with depth, the power of low gamma was more constant throughout L1. These findings identify L1 as an important coordination hub for the dynamic binding process of neurons mediated by oscillations.

摘要

初级感觉皮层 L1 层的膜电压震荡可能是皮质增益控制、注意力集中和信号整合的重要指标。然而，由于接近脑表面的电极的低密封电阻，电场记录受到阻碍。为了研究 L1 膜电压震荡，我们合成了一种新的电压敏感染料 di1-ANNINE（并环半花菁）-6plus，可以扩散到组织中。我们采用了一种新的手术方法，保持硬脑膜完整，但允许注射大量染色溶液，并在麻醉和清醒的小鼠中使用双光子显微镜深度分辨（硬脑膜下 25-100μm）成像皮质膜电位震荡。我们发现了 delta（0.5-4Hz）、theta（4-10Hz）、低 beta（10-20Hz）和低 gamma（30-40Hz）震荡。所有震荡在清醒动物中都更强。虽然 delta、theta 和低 beta 震荡的功率随深度增加而增加，但低 gamma 震荡的功率在整个 L1 中更为稳定。这些发现确定 L1 是由震荡介导的神经元动态绑定过程的一个重要协调中心。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8683/7253639/d5f22569a3fb/SN-ENUJ200098F001.jpg

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用双光子显微镜对皮层 1 层的皮层振荡进行电压成像。

Voltage Imaging of Cortical Oscillations in Layer 1 with Two-Photon Microscopy.

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