Bidirectional calcium signaling between satellite glial cells and neurons in cultured mouse trigeminal ganglia.

Neuron glia biology Pub Date : 2010-02-01 Epub Date: 2009-11-06 DOI:10.1017/S1740925X09990408
Sylvia O Suadicani, Pavel S Cherkas, Jonathan Zuckerman, David N Smith, David C Spray, Menachem Hanani
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引用次数: 126

Abstract

Astrocytes communicate with neurons, endothelial and other glial cells through transmission of intercellular calcium signals. Satellite glial cells (SGCs) in sensory ganglia share several properties with astrocytes, but whether this type of communication occurs between SGCs and sensory neurons has not been explored. In the present work we used cultured neurons and SGCs from mouse trigeminal ganglia to address this question. Focal electrical or mechanical stimulation of single neurons in trigeminal ganglion cultures increased intracellular calcium concentration in these cells and triggered calcium elevations in adjacent glial cells. Similar to neurons, SGCs responded to mechanical stimulation with increase in cytosolic calcium that spread to the adjacent neuron and neighboring glial cells. Calcium signaling from SGCs to neurons and among SGCs was diminished in the presence of the broad-spectrum P2 receptor antagonist suramin (50 muM) or in the presence of the gap junction blocker carbenoxolone (100 muM), whereas signaling from neurons to SGCs was reduced by suramin, but not by carbenoxolone. Following induction of submandibular inflammation by Complete Freund's Adjuvant injection, the amplitude of signaling among SGCs and from SGCs to neuron was increased, whereas the amplitude from neuron to SGCs was reduced. These results indicate for the first time the presence of bidirectional calcium signaling between neurons and SGCs in sensory ganglia cultures, which is mediated by the activation of purinergic P2 receptors, and to some extent by gap junctions. Furthermore, the results indicate that not only sensory neurons, but also SGCs release ATP. This form of intercellular calcium signaling likely plays key roles in the modulation of neuronal activity within sensory ganglia in normal and pathological states.

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三叉神经节卫星胶质细胞与神经元间的双向钙信号传导。
星形胶质细胞通过传递细胞间钙信号与神经元、内皮细胞和其他胶质细胞进行交流。感觉神经节中的卫星胶质细胞(SGCs)与星形胶质细胞有一些共同的特性,但这种类型的通讯是否发生在SGCs和感觉神经元之间还没有被探索。在目前的工作中,我们使用培养的神经元和小鼠三叉神经节的SGCs来解决这个问题。局部电或机械刺激三叉神经节培养的单个神经元增加细胞内钙浓度,并引发邻近胶质细胞钙浓度升高。与神经元类似,SGCs对机械刺激的反应是胞质钙的增加,并扩散到邻近的神经元和邻近的胶质细胞。广谱P2受体拮抗剂苏拉明(50mum)或间隙连接阻滞剂卡贝诺洛酮(100mum)存在时,从SGCs到神经元和SGCs之间的钙信号被减弱,而从神经元到SGCs的信号被苏拉明而不是卡贝诺洛酮所减少。通过完全弗氏佐剂注射诱导下颌下炎症后,上颌神经细胞之间和从上颌神经细胞到神经元的信号振幅增加,而从神经元到上颌神经细胞的信号振幅降低。这些结果首次表明,在感觉神经节培养中,神经元和上神经细胞之间存在双向钙信号,该信号通过嘌呤能P2受体的激活介导,并在一定程度上通过间隙连接介导。此外,研究结果表明,不仅感觉神经元释放ATP, SGCs也释放ATP。这种形式的细胞间钙信号可能在正常和病理状态下感觉神经节内神经元活动的调节中起关键作用。
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来源期刊
Neuron glia biology
Neuron glia biology 医学-神经科学
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