缺乏NMDA受体ε1亚基的小鼠海马长时程增强效应及空间学习能力降低。

Reduced hippocampal LTP and spatial learning in mice lacking NMDA receptor epsilon 1 subunit.

作者信息

Sakimura K, Kutsuwada T, Ito I, Manabe T, Takayama C, Kushiya E, Yagi T, Aizawa S, Inoue Y, Sugiyama H

机构信息

Department of Neuropharmacology, Niigata University, Japan.

出版信息

Nature. 1995 Jan 12;373(6510):151-5. doi: 10.1038/373151a0.

DOI:10.1038/373151a0

PMID:7816096

Abstract

The NMDA (N-methyl-D-aspartate) receptor channel is important for synaptic plasticity, which is thought to underlie learning, memory and development. The NMDA receptor channel is formed by at least two members of the glutamate receptor (GluR) channel subunit families, the GluR epsilon (NR2) and GluR zeta (NR1) subunit families. The four epsilon subunits are distinct in distribution, properties and regulation. On the basis of the Mg2+ sensitivity and expression patterns, we have proposed that the epsilon 1 (NR2A) and epsilon 2 (NR2B) subunits play a role in synaptic plasticity. Here we show that targeted disruption of the mouse epsilon 1 subunit gene resulted in significant reduction of the NMDA receptor channel current and long-term potentiation at the hippocampal CA1 synapses. The mutant mice also showed a moderate deficiency in spatial learning. These results support the notion that the NMDA receptor channel-dependent synaptic plasticity is the cellular basis of certain forms of learning.

摘要

N-甲基-D-天冬氨酸（NMDA）受体通道对突触可塑性很重要，而突触可塑性被认为是学习、记忆和发育的基础。NMDA受体通道由谷氨酸受体（GluR）通道亚基家族中的至少两个成员形成，即GluR ε（NR2）和GluR ζ（NR1）亚基家族。四个ε亚基在分布、特性和调节方面各不相同。基于Mg2+敏感性和表达模式，我们提出ε1（NR2A）和ε2（NR2B）亚基在突触可塑性中起作用。在此我们表明，小鼠ε1亚基基因的靶向破坏导致海马CA1突触处NMDA受体通道电流和长时程增强显著降低。突变小鼠在空间学习方面也表现出中度缺陷。这些结果支持了以下观点，即NMDA受体通道依赖性突触可塑性是某些形式学习的细胞基础。

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缺乏NMDA受体ε1亚基的小鼠海马长时程增强效应及空间学习能力降低。

Reduced hippocampal LTP and spatial learning in mice lacking NMDA receptor epsilon 1 subunit.

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