EXCITABILITY PROPERTIES OF TRIGEMINAL GANGLION NEURONS.

M V Telka, O V Rikhalsky, N S Veselovsky
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引用次数: 3

Abstract

The firing properties of small neurons (with diameters of soma less than 25 µm) were investigated using patch-clamp technique in whole-cell configuration in primary culture of trigeminal ganglia (TG) of postnatal rats. TG neurons were divided into three groups according to their firing responses to long-lasting depolarizing pulses: adaptive neurons (AN) characterized by a strongly adaptive responses; tonic neurons (TN) characterized by a multiple tonic firing; neurons with a delay before initiation of AP generation, namely, NDG. AN, TN and NDG also differed in AP electrophysiological and pharmacological characteristics. TN was distinguished by responses to hyperpolarization and the greatest value of input resistance. TN, AN and NDG were characterized by different active properties (amplitude of action potential and afterhyperpolarization, reobase, threshold). Each group of neurons was characterized by heterogeneity of AP duration and of frequency properties for TN. The application of tetrodotoxin (TTX) (250 nM) resulted in full or partial inhibition of AP generation and some neurons had TTX – insensitive firing responses. Neurons that were not affected by TTX had markedly longer AP. TTX had no effect on electrical activity of some AN and NDG. Based on sensitivity to TTX and their electrophysiological properties, AN and NDG seem to be C-fiber nococeptors.

三叉神经节神经元的兴奋性特性。
采用膜片钳技术研究了三叉神经节原代培养大鼠三叉神经节(TG)小神经元(胞体直径小于25µm)全细胞构型的放电特性。根据对长时间去极化脉冲的放电反应将TG神经元分为三组:适应神经元(AN)具有强烈的适应反应;以多次强直放电为特征的强直神经元;在AP生成开始前有延迟的神经元,即NDG。AN、TN和NDG在AP电生理和药理特性上也存在差异。通过对超极化的响应和最大输入电阻值来区分TN。TN、AN和NDG具有不同的活性特性(动作电位振幅和后超极化、再碱基、阈值)。每组神经元的AP持续时间和TN频率特性具有异质性。河豚毒素(TTX) (250 nM)的应用导致AP产生完全或部分抑制,部分神经元出现TTX不敏感的放电反应。未受TTX影响的神经元AP明显延长。TTX对部分AN和NDG的电活动无影响。基于对TTX的敏感性和它们的电生理特性,AN和NDG似乎是c纤维的受体。
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CiteScore
0.60
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