震颤- j型先天性低髓鞘性神经病小鼠模型神经肌肉连接处结构和功能异常

Alexandra N Scurry, D. Heredia, Cheng-Yuan Feng, Gregory B Gephart, G. Hennig, T. Gould
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引用次数: 16

摘要

外周髓鞘蛋白22 (PMP22)突变导致最常见的CMT病CMT1A。这种遗传性周围神经病变的特点是周围神经髓鞘发育异常,神经传导速度减慢,肌肉无力。L16P(亮氨酸16到脯氨酸)的PMP22点突变是人类CMT1A以及Trembler-J小鼠CMT1A模型的基础。纯合子Trembler-J小鼠(TrJ)出生后死亡早,不能制造外周髓磷脂,因此,与CMT1A患者相比,更类似于先天性低髓鞘神经病变患者。由于最近对人类和小鼠遗传性神经病的研究表明,神经肌肉突触或连接(NMJs)的功能障碍和变性通常先于轴突传导损伤,因此我们研究了TrJ小鼠NMJs的结构和功能。尽管在晚期TrJ小鼠中突触似乎正常神经支配,但NMJs的生长和成熟被改变。此外,神经诱发肌终板电位幅值降低,持续神经刺激时出现传递失败。这些结果表明,TrJ小鼠所特有的严重先天性髓鞘性神经病变导致了NMJ的结构和功能缺陷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural and Functional Abnormalities of the Neuromuscular Junction in the Trembler-J Homozygote Mouse Model of Congenital Hypomyelinating Neuropathy
Mutations in peripheral myelin protein 22 (PMP22) result in the most common form of Charcot-Marie-Tooth (CMT) disease, CMT1A. This hereditary peripheral neuropathy is characterized by dysmyelination of peripheral nerves, reduced nerve conduction velocity, and muscle weakness. A PMP22 point mutation in L16P (leucine 16 to proline) underlies a form of human CMT1A as well as the Trembler-J mouse model of CMT1A. Homozygote Trembler-J mice (TrJ) die early postnatally, fail to make peripheral myelin, and, therefore, are more similar to patients with congenital hypomyelinating neuropathy than those with CMT1A. Because recent studies of inherited neuropathies in humans and mice have demonstrated that dysfunction and degeneration of neuromuscular synapses or junctions (NMJs) often precede impairments in axonal conduction, we examined the structure and function of NMJs in TrJ mice. Although synapses appeared to be normally innervated even in end-stage TrJ mice, the growth and maturation of the NMJs were altered. In addition, the amplitudes of nerve-evoked muscle endplate potentials were reduced and there was transmission failure during sustained nerve stimulation. These results suggest that the severe congenital hypomyelinating neuropathy that characterizes TrJ mice results in structural and functional deficits of the developing NMJ.
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