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膜去极化通过多种电压敏感钙通道和钙蛋白酶的激活来抑制螺旋神经节神经突的生长。

Membrane depolarization inhibits spiral ganglion neurite growth via activation of multiple types of voltage sensitive calcium channels and calpain.

作者信息

Roehm Pamela C, Xu Ningyong, Woodson Erika A, Green Steven H, Hansen Marlan R

机构信息

Department of Otolaryngology-Head and Neck Surgery, University of Iowa, Iowa City, IA 52242, USA.

出版信息

Mol Cell Neurosci. 2008 Feb;37(2):376-87. doi: 10.1016/j.mcn.2007.10.014. Epub 2007 Nov 1.

DOI:10.1016/j.mcn.2007.10.014
PMID:18055215
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2265381/
Abstract

The effect of membrane electrical activity on spiral ganglion neuron (SGN) neurite growth remains unknown despite its relevance to cochlear implant technology. We demonstrate that membrane depolarization delays the initial formation and inhibits the subsequent extension of cultured SGN neurites. This inhibition depends directly on the level of depolarization with higher levels of depolarization causing retraction of existing neurites. Cultured SGNs express subunits for L-type, N-type, and P/Q type voltage-gated calcium channels (VGCCs) and removal of extracellular Ca(2+) or treatment with a combination of L-type, N-type, and P/Q-type VGCC antagonists rescues SGN neurite growth under depolarizing conditions. By measuring the fluorescence intensity of SGNs loaded with the fluorogenic calpain substrate t-butoxy carbonyl-Leu-Met-chloromethylaminocoumarin (20 microM), we demonstrate that depolarization activates calpains. Calpeptin (15 microM), a calpain inhibitor, prevents calpain activation by depolarization and rescues neurite growth in depolarized SGNs suggesting that calpain activation contributes to the inhibition of neurite growth by depolarization.

摘要

尽管膜电活动与人工耳蜗技术相关,但其对螺旋神经节神经元(SGN)神经突生长的影响仍不清楚。我们证明,膜去极化会延迟培养的SGN神经突的初始形成,并抑制其后续延伸。这种抑制直接取决于去极化水平,较高水平的去极化会导致现有神经突回缩。培养的SGN表达L型、N型和P/Q型电压门控钙通道(VGCC)的亚基,去除细胞外Ca(2+)或用L型、N型和P/Q型VGCC拮抗剂联合处理可在去极化条件下挽救SGN神经突生长。通过测量加载了荧光钙蛋白酶底物叔丁氧羰基-亮氨酸-甲硫氨酸-氯甲基氨基香豆素(20微摩尔)的SGN的荧光强度,我们证明去极化会激活钙蛋白酶。钙蛋白酶抑制剂钙肽素(15微摩尔)可防止去极化激活钙蛋白酶,并挽救去极化的SGN中的神经突生长,这表明钙蛋白酶激活有助于去极化对神经突生长的抑制作用。

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