Synchronized rhythms in chemosensitive neurons of the locus coeruleus in the absence of chemical synaptic transmission

Respiration physiology Pub Date : 2001-12-01 DOI:10.1016/S0034-5687(01)00300-0

M Andrzejewski, K Mückenhoff, P Scheid, D Ballantyne

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引用次数: 29

Abstract

The activity of locus coeruleus (LC) neurons was examined in the en bloc isolated brainstem–spinal cord of the neonatal rat using paired whole cell or whole cell plus extracellular recording. In artificial cerebrospinal fluid (ACSF) LC neurons were synchronized by their respiratory innervation and in some neurons showing tonic or burst patterns of discharge these patterns of discharge could also be synchronized. Replacing ACSF with low Ca²⁺-high Mg²⁺ generated synchronized rhythmic bursts which remained synchronized at high CO₂ (up to 20%). This rhythm was suppressed by TTX. Substitution of Ba²⁺ for Ca²⁺ in ACSF generated a synchronized rhythm which was TTX-insensitive. The frequency of this rhythm increased by 31±16% on raising CO₂ concentration from 2 to 10%. We conclude that the capacity of chemosensitive LC neurons to generate a synchronized rhythm depends on their electrical coupling, but not on chemical synaptic transmission.

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在没有化学突触传递的情况下，蓝斑区化学敏感神经元的同步节律

采用成对全细胞或全细胞加细胞外记录的方法，观察了新生大鼠整体离体脑干-脊髓蓝斑神经元的活性。在人工脑脊液(ACSF)中，LC神经元与呼吸神经同步，在一些神经元表现出紧张性或爆发性放电模式时，这些放电模式也可以同步。用低Ca2+-高Mg2+替代ACSF产生同步的节律性爆发，在高CO2(高达20%)下保持同步。这种节律被TTX抑制。ACSF中Ba2+取代Ca2+产生同步节律，对ttx不敏感。当二氧化碳浓度从2%提高到10%时，这种节律的频率增加了31±16%。我们得出结论，化学敏感LC神经元产生同步节律的能力取决于它们的电耦合，而不是化学突触传递。

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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Respiration physiology

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