Cross talk between vestibular neurons and Schwann cells mediates BDNF release and neuronal regeneration.

Brain cell biology Pub Date : 2006-06-01 Epub Date: 2007-10-04 DOI:10.1007/s11068-007-9011-6

Claudia Verderio, Fabio Bianco, Marie Pierre Blanchard, Matteo Bergami, Marco Canossa, Eric Scarfone, Michela Matteoli

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引用次数: 41

Abstract

It is now well-established that an active cross-talk occurs between neurons and glial cells, in the adult as well as in the developing and regenerating nervous systems. These functional interactions not only actively modulate synaptic transmission, but also support neuronal growth and differentiation. We have investigated the possible existence of a reciprocal interaction between inner ear vestibular neurons and Schwann cells maintained in primary cultures. We show that ATP released by the extending vestibular axons elevates intracellular calcium levels within Schwann cells. Purinergic activation of the Schwann P2X(7) receptor induces the release of neurotrophin BDNF, which occurs via a regulated, tetanus-toxin sensitive, vesicular pathway. BDNF, in turn, is required by the vestibular neuron to support its own survival and growth. Given the massive release of ATP during tissue damage, cross-talk between vestibular neurons and Schwann cells could play a primary role during regeneration.

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前庭神经元和雪旺细胞之间的串音介导BDNF释放和神经元再生。

现在已经确定，在成人以及发育和再生的神经系统中，神经元和神经胶质细胞之间存在活跃的串扰。这些功能相互作用不仅积极调节突触传递，而且支持神经元的生长和分化。我们研究了内耳前庭神经元和雪旺细胞在原代培养中相互作用的可能性。我们发现，延伸的前庭轴突释放的ATP提高了雪旺细胞内的细胞内钙水平。雪旺P2X(7)受体的嘌呤能激活诱导神经营养因子BDNF的释放，这是通过一个受调节的、破伤风毒素敏感的水泡途径发生的。反过来，前庭神经元需要BDNF来支持自身的生存和生长。考虑到组织损伤过程中ATP的大量释放，前庭神经元和雪旺细胞之间的串扰可能在再生过程中起主要作用。

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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Brain cell biology

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