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仓鼠背根神经节细胞的电生理特性及其对轴突切断的反应。

Electrophysiological characteristics of hamster dorsal root ganglion cells and their response to axotomy.

作者信息

Gurtu S, Smith P A

机构信息

Department of Pharmacology, University of Alberta, Edmonton, Canada.

出版信息

J Neurophysiol. 1988 Feb;59(2):408-23. doi: 10.1152/jn.1988.59.2.408.

DOI:10.1152/jn.1988.59.2.408
PMID:3351568
Abstract
  1. The active and passive membrane properties of neurons in the lower lumbar (L6, L7) or sacral (S1) dorsal root ganglia from golden hamsters were examined in vitro by means of conventional intracellular recording techniques. Data were collected from neurons exhibiting action potentials (AP) of 70 mV or more in amplitude. 2. Cells with axonal conduction velocities (CV) greater than 20 m/s were termed fast-A-cells, those with CVs between 2.5 and 20 m/s were termed A-delta-cells, and those with CVs less than 1 m/s were termed C-cells. 3. Fast-A-cells usually exhibited short-duration APs (2.51 +/- 0.41 ms, n = 19) followed by short (less than 50 ms) afterhyperpolarizations (AHPs). C-cells usually exhibited long-duration APs (10.5 +/- 0.69 ms, n = 18) followed by long-duration AHPs (much greater than 50 ms). The characteristics of APs in A-delta-cells (AP mean duration 3.34 +/- 0.42 ms, n = 32) were intermediate between those of fast-A- and C-cells. Long AHPs (duration much greater than 50 ms) were manifest in 43.8% of A-delta-cells. 4. A time-dependent sag in hyperpolarizing electrotonic potentials (rectification) was found in 68.8% of fast-A-cells, 45.5% of A-delta-cells, and 62.5% of C-cells. 5. To examine neuronal properties 1-6 wk after transection of the sciatic nerve (axotomy), cells were reclassified as SAP (short action potential) cells and LAP (long action potential) cells. Cells in the SAP category had AP durations less than 5 ms and included all fast-A-cells and the majority of A-delta-cells. The LAP category included cells with AP durations greater than 8 ms contained only C-cells. 6. Axotomy failed to decrease the CV of LAP cells or A-delta-cells in the SAP group. The CV of LAP cells may have increased (P less than 0.05), whereas that of SAP cells was unchanged. 7. The duration of the AP and AHP of SAP cells were slightly increased (0.1 greater than P greater than 0.05), whereas AP and AHP duration of LAP cells were unchanged after axotomy. AHP amplitudes of all cell types tended to be smaller (0.1 greater than P greater than 0.05). Axotomy did not alter the resting membrane potential or reduce the incidence of rectification in any cell type. 8. Invasion of the soma by axonally evoked APs was impeded in all cell types after axotomy even though a decrease (P less than 0.05) in rheobase of SAP cells occurred.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 采用传统的细胞内记录技术,在体外研究了金黄仓鼠下腰段(L6、L7)或骶段(S1)背根神经节神经元的主动和被动膜特性。数据采集自动作电位(AP)幅度为70 mV或更高的神经元。2. 轴突传导速度(CV)大于20 m/s的细胞被称为快A细胞,CV在2.5至20 m/s之间的细胞被称为Aδ细胞,CV小于1 m/s的细胞被称为C细胞。3. 快A细胞通常表现为短持续时间的动作电位(2.51±0.41 ms,n = 19),随后是短的(小于50 ms)超极化后电位(AHP)。C细胞通常表现为长持续时间的动作电位(10.5±0.69 ms,n = 18),随后是长持续时间的AHP(远大于50 ms)。Aδ细胞动作电位的特征(动作电位平均持续时间3.34±0.42 ms,n = 32)介于快A细胞和C细胞之间。43.8%的Aδ细胞出现长AHP(持续时间远大于50 ms)。4. 在68.8%的快A细胞、45.5%的Aδ细胞和62.5%的C细胞中发现了超极化电紧张电位的时间依赖性下陷(整流)。5. 为了研究坐骨神经横断(轴突切断)1 - 6周后神经元的特性,细胞被重新分类为短动作电位(SAP)细胞和长动作电位(LAP)细胞。SAP类别中的细胞动作电位持续时间小于5 ms,包括所有快A细胞和大多数Aδ细胞。LAP类别包括动作电位持续时间大于8 ms的细胞,仅包含C细胞。6. 轴突切断未能降低SAP组中LAP细胞或Aδ细胞的CV。LAP细胞的CV可能增加了(P小于0.05),而SAP细胞的CV未改变。7. SAP细胞的动作电位和AHP持续时间略有增加(0.1大于P大于0.05),而轴突切断后LAP细胞的动作电位和AHP持续时间未改变。所有细胞类型的AHP幅度都趋于变小(0.1大于P大于0.05)。轴突切断未改变任何细胞类型的静息膜电位或降低整流的发生率。8. 轴突切断后,尽管SAP细胞的阈强度降低了(P小于0.05),但所有细胞类型中轴突诱发的动作电位向胞体的传入均受到阻碍。(摘要截断于400字)

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