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气道传入神经支配的可塑性:离子通道的作用。

Plasticity of the afferent innervation of the airways: the role of ion channels.

作者信息

Carr Michael J

机构信息

GlaxoSmithKline, King of Prussia, PA 19406, USA.

出版信息

Pulm Pharmacol Ther. 2007;20(4):412-5. doi: 10.1016/j.pupt.2006.10.010. Epub 2006 Oct 26.

Abstract

Neuronal pathways associated with cough exhibit remarkable plasticity that can result in a persistent and uncontrollable urge to cough during disease. Afferent neurones involved in detecting tussive stimuli are polymodal, i.e. they respond to several types of stimuli including acid, inflammatory mediators such as bradykinin and mechanical stimuli. The pattern of action potential discharge following the encounter of the nerve terminal with a tussive stimulus is likely to determine the magnitude of the urge to cough and cough itself. The discharge pattern in sensory neurones is determined by multiple distinct voltage-gated ion channels. The function of many of these channels can be modulated via several signal transduction pathways coupled to receptors for a variety of inflammatory mediators. In particular, a key role of voltage-gated Na(+) and K(+) channel subtypes in shaping action potential discharge patterns in sensory neurones seems apparent. This modulation of transduction pathways may be an underlying mechanism of cough reflex plasticity.

摘要

与咳嗽相关的神经通路具有显著的可塑性,这可能导致在疾病期间出现持续且无法控制的咳嗽冲动。参与检测咳嗽刺激的传入神经元是多模式的,即它们对多种类型的刺激作出反应,包括酸、炎症介质如缓激肽以及机械刺激。神经末梢遇到咳嗽刺激后动作电位发放的模式可能决定咳嗽冲动的强度以及咳嗽本身。感觉神经元中的发放模式由多个不同的电压门控离子通道决定。这些通道中的许多通道的功能可通过与多种炎症介质受体偶联的几种信号转导途径进行调节。特别是,电压门控钠通道和钾通道亚型在塑造感觉神经元动作电位发放模式中似乎起着关键作用。这种转导途径的调节可能是咳嗽反射可塑性的潜在机制。

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