小鼠前Bötzinger复合体甘氨酸能神经元的体内光遗传学鉴定和电生理学。

IF 1.9 4区 医学 Q3 PHYSIOLOGY
Behnam Vafadari , Yoshitaka Oku , Charlotte Tacke , Ali Harb , Swen Hülsmann
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引用次数: 0

摘要

呼吸需要脑干中神经元活动的不同模式。负责呼吸节律产生的神经元网络的最关键部分是位于髓质腹外侧的前Bötzinger复合体(preBötC)。该区域既包含促韵律谷氨酸能神经元,也包含大量的抑制性神经元。在此,我们旨在分析麻醉小鼠前BötC中甘氨酸能神经元的活性。为了鉴定抑制性神经元,我们使用了一种转基因小鼠系,该系允许在甘氨酸能神经元中表达通道视紫红质2。使用细胞旁记录和通过单个记录电极的光遗传学激活,我们能够识别出神经元具有抑制性,并确定它们与呼吸节律相关的活动模式。我们可以表明,前BötC中甘氨酸能呼吸神经元的活动模式是异质的。有趣的是,只有少数已鉴定的甘氨酸能神经元在每个呼吸周期中都表现出明显的锁相活动模式。总之,我们可以证明,通过单个记录电极将细胞旁记录和光遗传学激活相结合,神经元识别是可能的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-vivo optogenetic identification and electrophysiology of glycinergic neurons in pre-Bötzinger complex of mice

Breathing requires distinct patterns of neuronal activity in the brainstem. The most critical part of the neuronal network responsible for respiratory rhythm generation is the preBötzinger Complex (preBötC), located in the ventrolateral medulla. This area contains both rhythmogenic glutamatergic neurons and also a high number of inhibitory neurons. Here, we aimed to analyze the activity of glycinergic neurons in the preBötC in anesthetized mice. To identify inhibitory neurons, we used a transgenic mouse line that allows expression of Channelrhodopsin 2 in glycinergic neurons. Using juxtacellular recordings and optogenetic activation via a single recording electrode, we were able to identify neurons as inhibitory and define their activity pattern in relation to the breathing rhythm. We could show that the activity pattern of glycinergic respiratory neurons in the preBötC was heterogeneous. Interestingly, only a minority of the identified glycinergic neurons showed a clear phase-locked activity pattern in every respiratory cycle. Taken together, we could show that neuron identification is possible by a combination of juxtacellular recordings and optogenetic activation via a single recording electrode.

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来源期刊
CiteScore
4.80
自引率
8.70%
发文量
104
审稿时长
54 days
期刊介绍: Respiratory Physiology & Neurobiology (RESPNB) publishes original articles and invited reviews concerning physiology and pathophysiology of respiration in its broadest sense. Although a special focus is on topics in neurobiology, high quality papers in respiratory molecular and cellular biology are also welcome, as are high-quality papers in traditional areas, such as: -Mechanics of breathing- Gas exchange and acid-base balance- Respiration at rest and exercise- Respiration in unusual conditions, like high or low pressure or changes of temperature, low ambient oxygen- Embryonic and adult respiration- Comparative respiratory physiology. Papers on clinical aspects, original methods, as well as theoretical papers are also considered as long as they foster the understanding of respiratory physiology and pathophysiology.
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