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神经元暴露于兴奋性谷氨酸水平可诱导 RNA 编辑酶腺苷脱氨酶作用于 RNA 2 的裂解,以及 GLUR2 编辑的丢失。

Exposure of neurons to excitotoxic levels of glutamate induces cleavage of the RNA editing enzyme, adenosine deaminase acting on RNA 2, and loss of GLUR2 editing.

机构信息

School of Health Sciences, Hunter College, CUNY, New York, NY 10010, USA.

出版信息

Neuroscience. 2011 Aug 25;189:305-15. doi: 10.1016/j.neuroscience.2011.05.027. Epub 2011 May 19.

DOI:10.1016/j.neuroscience.2011.05.027
PMID:21620933
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3150305/
Abstract

AMPA receptors are glutamate receptors that are tetramers of various combinations of GluR1-4 subunits. AMPA receptors containing GluR1, 3 and 4 are Ca2+ permeable, however, AMPA receptors containing even a single subunit of GluR2 are Ca2+ impermeable. Most AMPA receptors are Ca2+ impermeable due to the presence of GluR2. GluR2 confers special properties on AMPA receptors through the presence of arginine at the pore apex; other subunits (GluR1, 3, 4) contain glutamine at the pore apex and allow Ca2+ influx. Normally, an RNA editing step changes DNA-encoded glutamine to arginine, introduces arginine in the GluR2 pore apex. GluR2 RNA editing is carried out by an RNA-dependent adenosine deaminase (ADAR2). Loss of GluR2 editing leads to the formation of highly excitotoxic AMPA channels [Mahajan and Ziff (2007) Mol Cell Neurosci 35:470-481] and is shown to contribute to loss of motor neurons in amyotrophic lateral sclerosis (ALS). Relatively higher levels of Ca2+-permeable AMPA receptors are found in motor neurons and this has been correlated with lower GluR2 mRNA levels. However, the reason for loss of GluR2 editing is not known. Here we show that exposure of neurons to excitotoxic levels of glutamate leads to specific cleavage of ADAR2 that leads to generation of unedited GluR2. We demonstrate that cleaved ADAR2 leads to a decrease or loss of GluR2 editing, which will further result in high Ca2+ influx and excitotoxic neuronal death.

摘要

AMPA 受体是谷氨酸受体,由 GluR1-4 亚基的各种组合组成四聚体。包含 GluR1、3 和 4 的 AMPA 受体是 Ca2+可渗透的,然而,即使包含单个 GluR2 亚基的 AMPA 受体也是 Ca2+不可渗透的。由于 GluR2 的存在,大多数 AMPA 受体是 Ca2+不可渗透的。GluR2 通过在孔顶点存在精氨酸赋予 AMPA 受体特殊性质;其他亚基(GluR1、3、4)在孔顶点含有谷氨酰胺,并允许 Ca2+内流。通常,RNA 编辑步骤会将 DNA 编码的谷氨酰胺改变为精氨酸,在 GluR2 孔顶点引入精氨酸。GluR2 RNA 编辑由 RNA 依赖性腺苷脱氨酶 (ADAR2) 进行。GluR2 编辑的缺失会导致高度兴奋毒性的 AMPA 通道的形成[Mahajan 和 Ziff (2007) Mol Cell Neurosci 35:470-481],并被证明有助于肌萎缩侧索硬化症 (ALS) 中运动神经元的丧失。在运动神经元中发现相对较高水平的 Ca2+可渗透的 AMPA 受体,这与较低的 GluR2 mRNA 水平相关。然而,GluR2 编辑缺失的原因尚不清楚。在这里,我们表明神经元暴露于兴奋性谷氨酸水平会导致 ADAR2 的特异性切割,从而产生未经编辑的 GluR2。我们证明切割的 ADAR2 导致 GluR2 编辑减少或丢失,这将进一步导致大量 Ca2+内流和兴奋毒性神经元死亡。

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