跑步机训练诱导产生的脑源性神经营养因子通过上调KCC2有助于抑制脊髓损伤后的痉挛和异常性疼痛。

BDNF Induced by Treadmill Training Contributes to the Suppression of Spasticity and Allodynia After Spinal Cord Injury via Upregulation of KCC2.

作者信息

Tashiro Syoichi, Shinozaki Munehisa, Mukaino Masahiko, Renault-Mihara François, Toyama Yoshiaki, Liu Meigen, Nakamura Masaya, Okano Hideyuki

机构信息

Department of Rehabilitation Medicine, Keio University School of Medicine, Tokyo, Japan.

Department of Physiology, Keio University School of Medicine, Tokyo, Japan.

出版信息

Neurorehabil Neural Repair. 2015 Aug;29(7):677-89. doi: 10.1177/1545968314562110. Epub 2014 Dec 19.

DOI:10.1177/1545968314562110

PMID:25527489

Abstract

BACKGROUND

Spasticity and allodynia are major sequelae that affect the quality of life and daily activities of spinal cord injury (SCI) patients. Although rehabilitation ameliorates spasticity and allodynia, the molecular mechanisms involved in these processes remain elusive.

OBJECTIVE

To investigate the molecular mechanisms by which rehabilitation ameliorates spasticity and allodynia after SCI in rats.

METHODS

The expression levels of brain-derived neurotrophic factor (BDNF) and potassium-chloride cotransporter-2 (KCC2), as well as the localization of KCC2, were examined in the lumbar enlargements of untrained and treadmill-trained thoracic SCI model rats. Spasticity and allodynia were determined via behavioral and electrophysiological analyses. The effects of BDNF on spasticity, allodynia, and KCC2 activation were determined by inhibition of BDNF signaling via intrathecal administration of TrkB-IgG. The effects of SCI and training on the expression levels of functional phospholipase C-γ in the lumbar enlargement were also examined.

RESULTS

Treadmill training after SCI upregulated endogenous BDNF expression and posttranslational modification of KCC2 in the lumbar enlargement significantly. There were also significant correlations between increased KCC2 expression and ameliorated spasticity and allodynia. Administration of TrkB-IgG abrogated the training-induced upregulation of KCC2 and beneficial effects on spasticity and allodynia. The expression level of functional phospholipase C-γ was reduced significantly after SCI, which may have contributed to the change in the function of BDNF, whereby it did not trigger short-term downregulation or induce long-term upregulation of KCC2 expression secondary to training.

CONCLUSIONS

BDNF-mediated restoration of KCC2 expression underlies the suppression of spasticity and allodynia caused by rehabilitation.

摘要

背景

痉挛和痛觉过敏是影响脊髓损伤（SCI）患者生活质量和日常活动的主要后遗症。尽管康复治疗可改善痉挛和痛觉过敏，但这些过程所涉及的分子机制仍不清楚。

目的

探讨康复治疗改善大鼠脊髓损伤后痉挛和痛觉过敏的分子机制。

方法

检测未训练和经跑步机训练的胸段脊髓损伤模型大鼠腰膨大处脑源性神经营养因子（BDNF）和氯化钾协同转运体2（KCC2）的表达水平以及KCC2的定位。通过行为学和电生理学分析确定痉挛和痛觉过敏情况。通过鞘内注射TrkB-IgG抑制BDNF信号传导，确定BDNF对痉挛、痛觉过敏和KCC2激活的影响。还检测了脊髓损伤和训练对腰膨大处功能性磷脂酶C-γ表达水平的影响。

结果

脊髓损伤后进行跑步机训练可显著上调腰膨大处内源性BDNF表达和KCC2的翻译后修饰。KCC2表达增加与痉挛和痛觉过敏改善之间也存在显著相关性。给予TrkB-IgG可消除训练诱导的KCC2上调以及对痉挛和痛觉过敏的有益作用。脊髓损伤后功能性磷脂酶C-γ的表达水平显著降低，这可能导致了BDNF功能的改变，即它不会引发KCC2表达的短期下调或诱导训练继发的长期上调。

结论

BDNF介导的KCC2表达恢复是康复治疗抑制痉挛和痛觉过敏的基础。

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跑步机训练诱导产生的脑源性神经营养因子通过上调KCC2有助于抑制脊髓损伤后的痉挛和异常性疼痛。

BDNF Induced by Treadmill Training Contributes to the Suppression of Spasticity and Allodynia After Spinal Cord Injury via Upregulation of KCC2.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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