生长抑素神经元对发育过程中接触乙醇的成年小鼠皮质慢波功能障碍的影响。

Somatostatin neuron contributions to cortical slow wave dysfunction in adult mice exposed to developmental ethanol.

作者信息

Wilson Donald A, Fleming G, Williams C R O, Teixeira C M, Smiley J F, Saito Mariko

机构信息

Nathan S. Kline Institute for Psychiatric Research, Orangeburg, NY, United States.

Department of Child and Adolescent Psychiatry, New York University School of Medicine, New York, NY, United States.

出版信息

Front Neurosci. 2023 Mar 20;17:1127711. doi: 10.3389/fnins.2023.1127711. eCollection 2023.

DOI:10.3389/fnins.2023.1127711

PMID:37021136

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10067632/

Abstract

INTRODUCTION

Transitions between sleep and waking and sleep-dependent cortical oscillations are heavily dependent on GABAergic neurons. Importantly, GABAergic neurons are especially sensitive to developmental ethanol exposure, suggesting a potential unique vulnerability of sleep circuits to early ethanol. In fact, developmental ethanol exposure can produce long-lasting impairments in sleep, including increased sleep fragmentation and decreased delta wave amplitude. Here, we assessed the efficacy of optogenetic manipulations of somatostatin (SST) GABAergic neurons in the neocortex of adult mice exposed to saline or ethanol on P7, to modulate cortical slow-wave physiology.

METHODS

SST-cre × Ai32 mice, which selectively express channel rhodopsin in SST neurons, were exposed to ethanol or saline on P7. This line expressed similar developmental ethanol induced loss of SST cortical neurons and sleep impairments as C57BL/6By mice. As adults, optical fibers were implanted targeting the prefrontal cortex (PFC) and telemetry electrodes were implanted in the neocortex to monitor slow-wave activity and sleep-wake states.

RESULTS

Optical stimulation of PFC SST neurons evoked slow-wave potentials and long-latency single-unit excitation in saline treated mice but not in ethanol mice. Closed-loop optogenetic stimulation of PFC SST neuron activation on spontaneous slow-waves enhanced cortical delta oscillations, and this manipulation was more effective in saline mice than P7 ethanol mice.

DISCUSSION

Together, these results suggest that SST cortical neurons may contribute to slow-wave impairment after developmental ethanol.

摘要

引言

睡眠与清醒之间的转换以及依赖睡眠的皮层振荡严重依赖于γ-氨基丁酸（GABA）能神经元。重要的是，GABA能神经元对发育过程中乙醇暴露特别敏感，这表明睡眠回路可能对早期乙醇具有独特的潜在易损性。事实上，发育过程中乙醇暴露会对睡眠产生持久损害，包括睡眠片段化增加和δ波振幅降低。在此，我们评估了在成年小鼠新皮层中对生长抑素（SST）GABA能神经元进行光遗传学操纵的效果，这些小鼠在出生后第7天暴露于生理盐水或乙醇中，以调节皮层慢波生理。

方法

SST-cre×Ai32小鼠在SST神经元中选择性表达通道视紫红质，在出生后第7天暴露于乙醇或生理盐水。该品系表现出与C57BL/6By小鼠相似的发育性乙醇诱导的SST皮层神经元丢失和睡眠损害。成年后，将光纤植入靶向前额叶皮层（PFC），并将遥测电极植入新皮层以监测慢波活动和睡眠-觉醒状态。

结果

在生理盐水处理的小鼠中，对PFC SST神经元的光刺激诱发了慢波电位和长潜伏期单单位兴奋，但在乙醇处理的小鼠中未出现。对PFC SST神经元在自发慢波上的激活进行闭环光遗传学刺激增强了皮层δ振荡，并且这种操纵在生理盐水处理的小鼠中比出生后第7天乙醇处理的小鼠更有效。

讨论

总之，这些结果表明，发育性乙醇暴露后，SST皮层神经元可能导致慢波损害。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/56a4/10067632/b7f38a56de06/fnins-17-1127711-g001.jpg

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生长抑素神经元对发育过程中接触乙醇的成年小鼠皮质慢波功能障碍的影响。

Somatostatin neuron contributions to cortical slow wave dysfunction in adult mice exposed to developmental ethanol.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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