Differential optogenetic activation of the auditory midbrain in freely moving behaving mice.

IF 3.1 4区医学 Q2 NEUROSCIENCES

Frontiers in Systems Neuroscience Pub Date : 2023-08-31 eCollection Date: 2023-01-01 DOI:10.3389/fnsys.2023.1222176

Meike M Rogalla, Adina Seibert, Jana M Sleeboom, K Jannis Hildebrandt

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Abstract

Introduction: In patients with severe auditory impairment, partial hearing restoration can be achieved by sensory prostheses for the electrical stimulation of the central nervous system. However, these state-of-the-art approaches suffer from limited spectral resolution: electrical field spread depends on the impedance of the surrounding medium, impeding spatially focused electrical stimulation in neural tissue. To overcome these limitations, optogenetic activation could be applied in such prostheses to achieve enhanced resolution through precise and differential stimulation of nearby neuronal ensembles. Previous experiments have provided a first proof for behavioral detectability of optogenetic activation in the rodent auditory system, but little is known about the generation of complex and behaviorally relevant sensory patterns involving differential activation.

Methods: In this study, we developed and behaviorally tested an optogenetic implant to excite two spatially separated points along the tonotopy of the murine inferior colliculus (ICc).

Results: Using a reward based operant Go/No-Go paradigm, we show that differential optogenetic activation of a sub-cortical sensory pathway is possible and efficient. We demonstrate how animals which were previously trained in a frequency discrimination paradigm (a) rapidly respond to either sound or optogenetic stimulation, (b) generally detect optogenetic stimulation of two different neuronal ensembles, and (c) discriminate between them.

Discussion: Our results demonstrate that optogenetic excitatory stimulation at different points of the ICc tonotopy elicits a stable response behavior over time periods of several months. With this study, we provide the first proof of principle for sub-cortical differential stimulation of sensory systems using complex artificial cues in freely moving animals.

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自由活动小鼠听觉中脑的差异性光遗传学激活。

引言：对于严重听觉障碍患者，可以通过电刺激中枢神经系统的感觉假体来实现部分听力恢复。然而，这些最先进的方法的光谱分辨率有限：电场分布取决于周围介质的阻抗，阻碍了神经组织中空间聚焦的电刺激。为了克服这些限制，光遗传学激活可以应用于这种假体中，通过精确和差异化刺激附近的神经元集合来提高分辨率。先前的实验首次证明了啮齿动物听觉系统中光遗传学激活的行为可检测性，但对涉及差异激活的复杂和行为相关的感觉模式的产生知之甚少。方法：在这项研究中，我们开发了一种光遗传学植入物，并对其进行了行为测试，该植入物可以刺激小鼠下丘（ICc）眼压上两个空间分离的点。结果：使用基于奖励的操作性Go/No-Go范式，我们表明皮层下感觉通路的差异性光遗传学激活是可能和有效的。我们展示了先前在频率辨别范式中训练的动物是如何（a）对声音或光遗传学刺激做出快速反应的，（b）通常检测两个不同神经元系群的光遗传学刺激，以及（c）区分它们的。讨论：我们的研究结果表明，ICc眼压不同点的光遗传学兴奋性刺激在几个月的时间内引发稳定的反应行为。通过这项研究，我们首次证明了在自由运动的动物中使用复杂的人工线索对感觉系统进行皮层下差异刺激的原理。

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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来源期刊

Frontiers in Systems Neuroscience Neuroscience-Developmental Neuroscience

CiteScore

6.00

自引率

3.30%

发文量

144

审稿时长

14 weeks

期刊介绍： Frontiers in Systems Neuroscience publishes rigorously peer-reviewed research that advances our understanding of whole systems of the brain, including those involved in sensation, movement, learning and memory, attention, reward, decision-making, reasoning, executive functions, and emotions.