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电压阈值的降低在确定眼动核运动神经元在后生发育期间的募集中起着关键作用。

Diminution of voltage threshold plays a key role in determining recruitment of oculomotor nucleus motoneurons during postnatal development.

机构信息

Departamento de Fisiología, Universidad de Sevilla, Sevilla, Spain.

出版信息

PLoS One. 2011;6(12):e28748. doi: 10.1371/journal.pone.0028748. Epub 2011 Dec 9.

DOI:10.1371/journal.pone.0028748
PMID:22174887
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3235164/
Abstract

The size principle dictates the orderly recruitment of motoneurons (Mns). This principle assumes that Mns of different sizes have a similar voltage threshold, cell size being the crucial property in determining neuronal recruitment. Thus, smaller neurons have higher membrane resistance and require a lower depolarizing current to reach spike threshold. However, the cell size contribution to recruitment in Mns during postnatal development remains unknown. To investigate this subject, rat oculomotor nucleus Mns were intracellularly labeled and their electrophysiological properties recorded in a brain slice preparation. Mns were divided into 2 age groups: neonatal (1-7 postnatal days, n = 14) and adult (20-30 postnatal days, n = 10). The increase in size of Mns led to a decrease in input resistance with a strong linear relationship in both age groups. A well-fitted inverse correlation was also found between input resistance and rheobase in both age groups. However, input resistance versus rheobase did not correlate when data from neonatal and adult Mns were combined in a single group. This lack of correlation is due to the fact that decrease in input resistance of developing Mns did not lead to an increase in rheobase. Indeed, a diminution in rheobase was found, and it was accompanied by an unexpected decrease in voltage threshold. Additionally, the decrease in rheobase co-varied with decrease in voltage threshold in developing Mns. These data support that the size principle governs the recruitment order in neonatal Mns and is maintained in adult Mns of the oculomotor nucleus; but during postnatal development the crucial property in determining recruitment order in these Mns was not the modifications of cell size-input resistance but of voltage threshold.

摘要

大小原则决定了运动神经元(Mns)的有序募集。该原则假设,不同大小的 Mns 具有相似的电压阈值,细胞大小是决定神经元募集的关键特性。因此,较小的神经元具有更高的膜电阻,需要较低的去极化电流才能达到尖峰阈值。然而,细胞大小对出生后发育过程中 Mns 募集的贡献仍不清楚。为了研究这个问题,我们在脑片制备中对大鼠眼运动核 Mns 进行了细胞内标记,并记录了它们的电生理特性。Mns 分为 2 个年龄组:新生儿(1-7 天龄,n=14)和成年(20-30 天龄,n=10)。Mns 大小的增加导致输入电阻的降低,在两个年龄组中都呈现出很强的线性关系。在两个年龄组中,还发现输入电阻与基强度之间存在很好拟合的负相关关系。然而,当将新生儿和成年 Mns 的数据合并到一个单独的组中时,输入电阻与基强度之间没有相关性。这种缺乏相关性是由于发育中的 Mns 输入电阻的降低并没有导致基强度的增加。事实上,发现基强度降低,同时伴随着电压阈值的意外降低。此外,在发育中的 Mns 中,基强度的降低与电压阈值的降低呈共变关系。这些数据支持大小原则支配新生儿 Mns 的募集顺序,并在眼运动核的成年 Mns 中得到维持;但是,在出生后发育过程中,决定这些 Mns 募集顺序的关键特性不是细胞大小-输入电阻的改变,而是电压阈值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa7/3235164/42ef2154ab77/pone.0028748.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa7/3235164/3976de179de4/pone.0028748.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa7/3235164/42ef2154ab77/pone.0028748.g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa7/3235164/3976de179de4/pone.0028748.g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2fa7/3235164/42ef2154ab77/pone.0028748.g002.jpg

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