Tonotopic action potential tuning of maturing auditory neurons through endogenous ATP

The Japanese journal of physiology Pub Date : 2017-02-15 DOI:10.1113/JP273272

Saša Virijević Jovanović, T. Radulovic, C. Coddou, Beatrice Dietz, Jana Nerlich, S. Stojilkovic, R. Rübsamen, I. Milenkovic

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引用次数: 12

Abstract

Following the genetically controlled formation of neuronal circuits, early firing activity guides the development of sensory maps in the auditory, visual and somatosensory system. However, it is not clear whether the activity of central auditory neurons is specifically regulated depending on the position within the sensory map. In the ventral cochlear nucleus, the first central station along the auditory pathway, we describe a mechanism through which paracrine ATP signalling enhances firing in a cell‐specific and tonotopically‐determined manner. Developmental down‐regulation of P2X2/3R currents along the tonotopic axis occurs simultaneously with an increase in AMPA receptor currents, suggesting a high‐to‐low frequency maturation pattern. Facilitated action potential (AP) generation, measured as higher firing rate, shorter EPSP‐AP delay in vivo and shorter AP latency in slice experiments, is consistent with increased synaptic efficacy caused by ATP. The long lasting change in intrinsic neuronal excitability is mediated by the heteromeric P2X2/3 receptors.

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内源性ATP调控成熟听觉神经元的张力异位动作电位

在基因控制的神经元回路形成之后，早期的放电活动指导了听觉、视觉和体感系统中感觉地图的发展。然而，目前尚不清楚中央听觉神经元的活动是否根据感觉地图中的位置被特异性调节。在耳蜗腹侧核，听觉通路上的第一个中枢，我们描述了旁分泌ATP信号以细胞特异性和tonotopically决定的方式增强放电的机制。P2X2/3R电流沿张力轴的发育下调与AMPA受体电流的增加同时发生，表明一个高-低频率的成熟模式。促进动作电位(AP)的产生，通过更高的放电率、更短的体内EPSP - AP延迟和更短的切片实验AP潜伏期来测量，与ATP引起的突触效能增加一致。内禀神经元兴奋性的长期变化是由异质P2X2/3受体介导的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Japanese journal of physiology

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