Cynthia Prigogine, Javier Marquez Ruiz, Ana Maria Cebolla, Nicolas Deconinck, Laurent Servais, Philippe Gailly, Bernard Dan, Guy Cheron
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引用次数: 0
摘要
杜兴氏肌肉营养不良症(DMD)患者除了因骨骼肌中缺乏肌营养不良蛋白表达而导致严重的肌肉损伤外,通常还表现出特定的认知障碍。这些认知障碍与中枢神经系统的特定区域,特别是小脑浦肯野细胞(PC)中缺乏肌营养不良蛋白有关。最近,Dystrophin参与了GABAA受体在突触后密度的聚集,而Dystrophin的缺失会破坏这种聚集,从而导致对PC的抑制性输入减少。我们对肌营养不良 X-连锁(mdx)DMD 小鼠模型进行了体内电生理研究,以比较警觉的 mdx 小鼠和对照 C57Bl/10 小鼠的 PC 发火和局部场电位(LFP)。我们发现,肌营养不良蛋白的缺失与警觉的 mdx 小鼠小脑皮层中 PC 发射的改变和快速(约 160-200 Hz)LFP 振荡的出现有关。这些异常与小脑PC中钙结合蛋白的表达紊乱无关。我们还证明,警觉型mdx小鼠的小脑长期抑制发生了改变。最后,在行为测试中,mdx小鼠表现出无力、运动协调性和平衡能力轻度受损。这些发现证明了mdx小鼠存在小脑功能障碍。类似的小脑功能障碍可能也是DMD患者出现认知障碍的原因之一。
Cerebellar dysfunction in the mdx mouse model of Duchenne muscular dystrophy: An electrophysiological and behavioural study
Patients with Duchenne muscular dystrophy (DMD) commonly show specific cognitive deficits in addition to a severe muscle impairment caused by the absence of dystrophin expression in skeletal muscle. These cognitive deficits have been related to the absence of dystrophin in specific regions of the central nervous system, notably cerebellar Purkinje cells (PCs). Dystrophin has recently been involved in GABAA receptors clustering at postsynaptic densities, and its absence, by disrupting this clustering, leads to decreased inhibitory input to PC. We performed an in vivo electrophysiological study of the dystrophin-deficient muscular dystrophy X-linked (mdx) mouse model of DMD to compare PC firing and local field potential (LFP) in alert mdx and control C57Bl/10 mice. We found that the absence of dystrophin is associated with altered PC firing and the emergence of fast (~160–200 Hz) LFP oscillations in the cerebellar cortex of alert mdx mice. These abnormalities were not related to the disrupted expression of calcium-binding proteins in cerebellar PC. We also demonstrate that cerebellar long-term depression is altered in alert mdx mice. Finally, mdx mice displayed a force weakness, mild impairment of motor coordination and balance during behavioural tests. These findings demonstrate the existence of cerebellar dysfunction in mdx mice. A similar cerebellar dysfunction may contribute to the cognitive deficits observed in patients with DMD.
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EJN is the journal of FENS and supports the international neuroscientific community by publishing original high quality research articles and reviews in all fields of neuroscience. In addition, to engage with issues that are of interest to the science community, we also publish Editorials, Meetings Reports and Neuro-Opinions on topics that are of current interest in the fields of neuroscience research and training in science. We have recently established a series of ‘Profiles of Women in Neuroscience’. Our goal is to provide a vehicle for publications that further the understanding of the structure and function of the nervous system in both health and disease and to provide a vehicle to engage the neuroscience community. As the official journal of FENS, profits from the journal are re-invested in the neuroscientific community through the activities of FENS.
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