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选择性去除螺旋神经节神经元后听觉神经元对毛细胞的再支配。

Reinnervation of hair cells by auditory neurons after selective removal of spiral ganglion neurons.

作者信息

Martinez-Monedero Rodrigo, Corrales C Eduardo, Cuajungco Math P, Heller Stefan, Edge Albert S B

机构信息

Department of Otology and Laryngology, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

J Neurobiol. 2006 Mar;66(4):319-31. doi: 10.1002/neu.20232.

DOI:10.1002/neu.20232
PMID:16408287
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1978539/
Abstract

Hearing loss can be caused by primary degeneration of spiral ganglion neurons or by secondary degeneration of these neurons after hair cell loss. The replacement of auditory neurons would be an important step in any attempt to restore auditory function in patients with damaged inner ear neurons or hair cells. Application of beta-bungarotoxin, a toxin derived from snake venom, to an explant of the cochlea eradicates spiral ganglion neurons while sparing the other cochlear cell types. The toxin was found to bind to the neurons and to cause apoptotic cell death without affecting hair cells or other inner ear cell types as indicated by TUNEL staining, and, thus, the toxin provides a highly specific means of deafferentation of hair cells. We therefore used the denervated organ of Corti for the study of neuronal regeneration and synaptogenesis with hair cells and found that spiral ganglion neurons obtained from the cochlea of an untreated newborn mouse reinnervated hair cells in the toxin-treated organ of Corti and expressed synaptic vesicle markers at points of contact with hair cells. These findings suggest that it may be possible to replace degenerated neurons by grafting new cells into the organ of Corti.

摘要

听力损失可能由螺旋神经节神经元的原发性变性引起,也可能由毛细胞丧失后这些神经元的继发性变性引起。在任何试图恢复内耳神经元或毛细胞受损患者听觉功能的尝试中,替换听觉神经元都将是重要的一步。将源自蛇毒的β-银环蛇毒素应用于耳蜗外植体,可根除螺旋神经节神经元,同时保留其他耳蜗细胞类型。研究发现,该毒素与神经元结合并导致凋亡性细胞死亡,而TUNEL染色显示其不影响毛细胞或其他内耳细胞类型,因此,该毒素提供了一种高度特异性的使毛细胞去传入神经支配的方法。因此,我们使用去神经支配的柯蒂氏器来研究神经元再生以及与毛细胞的突触形成,发现从未经处理的新生小鼠耳蜗获得的螺旋神经节神经元重新支配了毒素处理过的柯蒂氏器中的毛细胞,并在与毛细胞的接触点表达突触小泡标记物。这些发现表明,通过将新细胞移植到柯蒂氏器中替换退化的神经元或许是可行的。

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