成年小鼠基底核脑片中胆碱能和非胆碱能大细胞神经元的生理特性。

Physiological properties of cholinergic and non-cholinergic magnocellular neurons in acute slices from adult mouse nucleus basalis.

机构信息

Department of Physiology, Feinberg School of Medicine, Northwestern University, Chicago, Illinois, USA.

出版信息

PLoS One. 2010 Jun 10;5(6):e11046. doi: 10.1371/journal.pone.0011046.

DOI:10.1371/journal.pone.0011046

PMID:20548784

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2883570/

Abstract

BACKGROUND

The basal forebrain is a series of nuclei that provides cholinergic input to much of the forebrain. The most posterior of these nuclei, nucleus basalis, provides cholinergic drive to neocortex and is involved in arousal and attention. The physiological properties of neurons in anterior basal forebrain nuclei, including medial septum, the diagonal band of Broca and substantia innominata, have been described previously. In contrast the physiological properties of neurons in nucleus basalis, the most posterior nucleus of the basal forebrain, are unknown.

METHODOLOGY/PRINCIPAL FINDINGS: Here we investigate the physiological properties of neurons in adult mouse nucleus basalis. We obtained cell-attached and whole-cell recordings from magnocellular neurons in slices from P42-54 mice and compared cholinergic and non-cholinergic neurons, distinguished retrospectively by anti-choline acetyltransferase immunocytochemistry. The majority (70-80%) of cholinergic and non-cholinergic neurons were silent at rest. Spontaneously active cholinergic and non-cholinergic neurons exhibited irregular spiking at 3 Hz and at 0.3 to 13.4 Hz, respectively. Cholinergic neurons had smaller, broader action potentials than non-cholinergic neurons (amplitudes 64+/-3.4 and 75+/-2 mV; half widths 0.52+/-0.04 and 0.33+/-0.02 ms). Cholinergic neurons displayed a more pronounced slow after-hyperpolarization than non-cholinergic neurons (13.3+/-2.2 and 3.6+/-0.5 mV) and were unable to spike at high frequencies during tonic current injection (maximum frequencies of approximately 20 Hz and >120 Hz).

CONCLUSIONS/SIGNIFICANCE: Our results indicate that neurons in nucleus basalis share similar physiological properties with neurons in anterior regions of the basal forebrain. Furthermore, cholinergic and non-cholinergic neurons in nucleus basalis can be distinguished by their responses to injected current. To our knowledge, this is the first description of the physiological properties of cholinergic and non-cholinergic neurons in the posterior aspects of the basal forebrain complex and the first study of basal forebrain neurons from the mouse.

摘要

背景

基底前脑是一系列核团，为前脑的大部分区域提供胆碱能输入。这些核团中最靠后的核团基底核提供了新皮质的胆碱能驱动，并且与觉醒和注意力有关。以前已经描述了前基底前脑核团（包括内侧隔核、Broca 斜角带和无名质）中的神经元的生理特性。相比之下，基底前脑最靠后的核团基底核中神经元的生理特性尚不清楚。

方法/主要发现：在这里，我们研究了成年小鼠基底核中神经元的生理特性。我们从 P42-54 日龄小鼠的切片中获得了细胞附着和全细胞记录，并通过抗胆碱乙酰转移酶免疫细胞化学法回顾性地将其区分开来，以区分胆碱能和非胆碱能神经元。大多数（70-80%）胆碱能和非胆碱能神经元在静息时处于沉默状态。自发活动的胆碱能和非胆碱能神经元分别以 3 Hz 和 0.3 至 13.4 Hz 的频率表现出不规则的放电。胆碱能神经元的动作电位比非胆碱能神经元小而宽（幅度分别为 64+/-3.4 和 75+/-2 mV；半宽度分别为 0.52+/-0.04 和 0.33+/-0.02 ms）。胆碱能神经元比非胆碱能神经元表现出更明显的慢后超极化（13.3+/-2.2 和 3.6+/-0.5 mV），并且在强直电流注入时无法高频放电（最大频率约为 20 Hz 和 >120 Hz）。

结论/意义：我们的结果表明，基底核中的神经元与基底前脑的前区神经元具有相似的生理特性。此外，基底核中的胆碱能和非胆碱能神经元可以通过它们对注入电流的反应来区分。据我们所知，这是基底前脑复合体后区胆碱能和非胆碱能神经元的生理特性的首次描述，也是对来自小鼠的基底前脑神经元的首次研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a4c/2883570/1c5d1b95ba5b/pone.0011046.g001.jpg

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成年小鼠基底核脑片中胆碱能和非胆碱能大细胞神经元的生理特性。

Physiological properties of cholinergic and non-cholinergic magnocellular neurons in acute slices from adult mouse nucleus basalis.

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