钠扰动对大鼠化学感受器动作电位产生的影响:对泊松模型的启示
Effect of sodium perturbations on rat chemoreceptor spike generation: implications for a Poisson model.
作者信息
Donnelly D F, Panisello J M, Boggs D
机构信息
Department of Pediatrics, Section of Respiratory Medicine, Yale University School of Medicine, New Haven, CT 06510, USA.
出版信息
J Physiol. 1998 Aug 15;511 ( Pt 1)(Pt 1):301-11. doi: 10.1111/j.1469-7793.1998.301bi.x.
Abstract
- The sensitivity of arterial chemoreceptor spike generation to reductions in excitability was examined using rat chemoreceptors in vitro. Axonal excitability was reduced by reducing extracellular sodium concentration ([Na+]o) by 10-40% or by applying low doses of tetrodotoxin (TTX). 2. In normoxia and in hypoxia, an isosmotic reduction in [Na+]o caused a proportional decrease in single-fibre, spiking nerve activity. For a 20% reduction in [Na+]o, nerve activity decreased to 54 +/- 7% of control in normoxia and 41 +/- 5% in hypoxia. 3. Low doses of TTX (25-50 nM) caused a similar decrease in spiking frequency, but this response was variable amongst fibres, with some fibres unaffected by TTX. 4. A reduction in [Na+]o by 20% caused a slowing of conduction velocity, measured using an electrical stimulus delivered to an electrode placed in the carotid body. Threshold current for spike generation was increased by about 2.7 +/- 1.4%. Threshold current increased by 6.5 +/- 3.7% following a 40% reduction in [Na+]o. 5. The spike generation process was modelled as a Poisson process in which depolarizing events summate and give rise to an action potential. The experimental data were best fitted to a high order process characterized by a large number of events and high event threshold. 6. This result is not consistent with depolarization events caused by episodic transmitter release, but suggests that afferent spike generation is an endogenous process in the afferent nerve fibres, perhaps linked to random channel activity or to thermal noise fluctuations.
摘要
- 使用体外培养的大鼠化学感受器,研究了动脉化学感受器动作电位产生对兴奋性降低的敏感性。通过将细胞外钠浓度([Na+]o)降低10%-40%或应用低剂量河豚毒素(TTX)来降低轴突兴奋性。2. 在常氧和低氧条件下,等渗降低[Na+]o导致单纤维发放神经活动成比例下降。对于[Na+]o降低20%,常氧条件下神经活动降至对照的54±7%,低氧条件下降至41±5%。3. 低剂量TTX(25-50 nM)导致发放频率出现类似下降,但这种反应在不同纤维间存在差异,有些纤维不受TTX影响。4. [Na+]o降低20%导致传导速度减慢,通过施加电刺激至置于颈动脉体的电极来测量。动作电位产生的阈值电流增加约2.7±1.4%。[Na+]o降低40%后,阈值电流增加6.5±3.7%。5. 将动作电位产生过程建模为泊松过程,其中去极化事件总和并引发动作电位。实验数据最适合由大量事件和高事件阈值表征的高阶过程。6. 这一结果与阵发性递质释放引起的去极化事件不一致,而是表明传入神经纤维中的传入动作电位产生是一个内源性过程,可能与随机通道活动或热噪声波动有关。
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