在肌张力障碍转基因小鼠模型中皮质诱发的苍白球神经元长时程抑制

Cortically evoked long-lasting inhibition of pallidal neurons in a transgenic mouse model of dystonia.

作者信息

Chiken Satomi, Shashidharan Pullanipally, Nambu Atsushi

机构信息

Division of System Neurophysiology, National Institute for Physiological Sciences and Department of Physiological Sciences, Graduate University for Advanced Studies, Myodaiji, Okazaki 444-8585, Japan.

出版信息

J Neurosci. 2008 Dec 17;28(51):13967-77. doi: 10.1523/JNEUROSCI.3834-08.2008.

DOI:10.1523/JNEUROSCI.3834-08.2008

PMID:19091985

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2702121/

Abstract

Dystonia is a neurological disorder characterized by sustained or repetitive involuntary muscle contractions and abnormal postures. To understand the pathophysiology of dystonia, neurophysiological analyses were performed on hyperkinetic transgenic mice generated as a model of DYT1 dystonia. Abnormal muscle activity, such as coactivation of agonist and antagonist muscles and sustained muscle activation, was frequently observed in these mice. Recording of neuronal activity in the awake state revealed reduced spontaneous activity with bursts and pauses in both the external and internal segments of the globus pallidus. Motor cortical stimulation evoked responses composed of excitation and subsequent long-lasting inhibition in both pallidal segments, which were never observed in the normal mice. In addition, the somatotopic arrangements in both pallidal segments were disorganized. Long-lasting inhibition induced by cortical inputs in the internal pallidal segment may disinhibit thalamic and cortical activity, resulting in the motor hyperactivity observed in the transgenic mice.

摘要

肌张力障碍是一种神经障碍，其特征为持续或重复的不自主肌肉收缩及异常姿势。为了解肌张力障碍的病理生理学机制，对作为DYT1肌张力障碍模型而产生的运动亢进转基因小鼠进行了神经生理学分析。在这些小鼠中经常观察到异常的肌肉活动，如主动肌和拮抗肌的共同激活以及肌肉的持续激活。清醒状态下的神经元活动记录显示，苍白球外部和内部节段的自发活动减少，伴有爆发和停顿。运动皮层刺激在两个苍白球节段诱发的反应由兴奋和随后的持久抑制组成，这在正常小鼠中从未观察到。此外，两个苍白球节段的躯体定位排列紊乱。苍白球内部节段中皮质输入诱导的持久抑制可能会解除对丘脑和皮质活动的抑制，从而导致转基因小鼠中观察到的运动亢进。

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