Center for Neural Science, New York University, New York, New York 10003, USA.
J Neurosci. 2011 Nov 30;31(48):17637-48. doi: 10.1523/JNEUROSCI.4162-11.2011.
The axon initial segment (AIS) is the site of action potential initiation in neurons. Recent studies have demonstrated activity-dependent regulation of the AIS, including homeostatic changes in AIS length, membrane excitability, and the localization of voltage-gated Na(+) channels. The neurodevelopmental disorder Angelman syndrome (AS) is usually caused by the deletion of small portions of the maternal copy of chromosome 15, which includes the UBE3A gene. A mouse model of AS has been generated and these mice exhibit multiple neurological abnormalities similar to those observed in humans. We examined intrinsic properties of pyramidal neurons in hippocampal area CA1 from AS model mice and observed alterations in resting membrane potential, threshold potential, and action potential amplitude. The altered intrinsic properties in the AS mice were correlated with significant increases in the expression of the α1 subunit of Na/K-ATPase (α1-NaKA), the Na(+) channel NaV1.6, and the AIS anchoring protein ankyrin-G, as well as an increase in length of the AIS. These findings are the first evidence for pathology of intrinsic membrane properties and AIS-specific changes in AS, a neurodevelopmental disorder associated with autism.
轴突起始段(AIS)是神经元动作电位起始的部位。最近的研究表明,AIS 受到活动依赖性调节,包括 AIS 长度、膜兴奋性和电压门控 Na(+)通道定位的稳态变化。神经发育障碍天使综合征(AS)通常由 15 号染色体母本部分的小片段缺失引起,该部分包括 UBE3A 基因。已经生成了 AS 的小鼠模型,这些小鼠表现出与人类观察到的类似的多种神经异常。我们检查了 AS 模型小鼠海马 CA1 区锥体神经元的内在特性,并观察到静息膜电位、阈电位和动作电位幅度的改变。AS 小鼠中改变的内在特性与 α1 亚基的 Na/K-ATP 酶 (α1-NaKA)、Na(+)通道 NaV1.6 和 AIS 锚定蛋白 ankryin-G 的表达显著增加以及 AIS 长度增加有关。这些发现是 AS(一种与自闭症相关的神经发育障碍)中内在膜特性和 AIS 特异性变化的病理学的首次证据。