支持兴奋性氨基酸对青蛙初级传入终末进行间接去极化的证据。
Evidence supporting the indirect depolarization of primary afferent terminals in the frog by excitatory amino acids.
作者信息
Evans R H
出版信息
J Physiol. 1980 Jan;298:25-35. doi: 10.1113/jphysiol.1980.sp013064.
Abstract
- Isolated hemisected spinal cords of the frog have been used to investigate the way excitant amino acids depolarize primary afferent fibres and terminals.2. GABA and excitant amino acids caused depolarization in dorsal roots. But dorsal roots sectioned at the point of exit from the spinal cord responded only to GABA.3. Prolonged application of kainate or N-methyl-D-aspartate to hemicords caused a depolarization of dorsal roots in association with an increased extra-cellular [K(+)]. The two effects decayed with similar time courses. The depolarization recorded from ventral roots was maintained in the presence of the excitants.4. Field potentials, elicited by electrical stimulation of ventral roots and recorded in the ventral horn of Mg blocked preparations, were abolished by prolonged treatment with kainate. Corresponding dorsal horn field potentials elicited by electrical stimulation of dorsal roots were resistant to the presence of kainate.5. Excitability of motoneurones or afferent terminals was measured from the amplitude of action potentials evoked by submaximal cathodal stimulation of ventral or dorsal horns and recorded in ventral or dorsal roots respectively. Prolonged application of kainate to Mg blocked preparations abolished the excitability of motoneurones within 5 min, but the excitability of primary afferent terminals was increased and maintained for several hours.6. These observations support the hypothesis that primary afferent terminals in the frog do not have receptors for excitatory amino acids and that depolarization of terminals induced by excitatory amino acids is mediated through release of K from other cells within the dorsal horn.
摘要
青蛙的离体半切脊髓已被用于研究兴奋性氨基酸使初级传入纤维和终末去极化的方式。
γ-氨基丁酸(GABA)和兴奋性氨基酸可使背根去极化。但在脊髓出口处切断的背根仅对GABA有反应。
向半切脊髓长时间施加 kainate 或 N-甲基-D-天冬氨酸(N-methyl-D-aspartate)会导致背根去极化,同时细胞外[K⁺]升高。这两种效应以相似的时间进程衰减。在存在兴奋性物质的情况下,腹根记录到的去极化得以维持。
在 Mg 阻断的标本中,电刺激腹根诱发并在腹角记录到的场电位,经 kainate 长时间处理后消失。电刺激背根诱发的相应背角场电位对 kainate 不敏感。
运动神经元或传入终末的兴奋性通过分别在腹根或背根记录的、由次最大阴极刺激腹角或背角诱发的动作电位幅度来测量。向 Mg 阻断的标本长时间施加 kainate,5 分钟内可消除运动神经元的兴奋性,但初级传入终末的兴奋性增加并持续数小时。
这些观察结果支持以下假说:青蛙的初级传入终末没有兴奋性氨基酸受体,兴奋性氨基酸诱导的终末去极化是通过背角内其他细胞释放 K⁺介导的。
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