通过突触后密度的支架蛋白来调节行为。
Modulation of behavior by scaffolding proteins of the post-synaptic density.
机构信息
Jiangsu Key Laboratory of Anesthesiology, Xuzhou Medical College, 209 Tongshan Road, Xuzhou, Jiangsu 221004, China.
出版信息
Neurobiol Learn Mem. 2013 Oct;105:3-12. doi: 10.1016/j.nlm.2013.04.014. Epub 2013 May 20.
Abstract
Scaffolding proteins of the neuronal post-synaptic density (PSD) are principal organizers of glutamatergic neurotransmission that bring together glutamate receptors and signaling molecules at discrete synaptic locations. Genetic alterations of individual PSD scaffolds therefore disrupt the function of entire multiprotein modules rather than a single glutamatergic mechanism, and thus induce a range of molecular and structural abnormalities in affected neurons. Despite such broad molecular consequences, knockout, knockdown, or knockin of glutamate receptor scaffolds typically affect a subset of specific behaviors and thereby mold and specialize the actions of the ubiquitous glutamatergic neurotransmitter system. Approaches designed to control the function of neuronal scaffolds may therefore have high potential to restore behavioral morbidities and comorbidities in patients with psychiatric disorders. Here we summarize a series of experiments with genetically modified mice revealing the roles of main N-methyl-d-aspartate (NMDA) and group I metabotropic glutamate (mGluR1/5) receptor scaffolds in behavior, discuss the clinical implications of the findings, and propose future research directions.
摘要
神经元突触后密度 (PSD) 的支架蛋白是谷氨酸能神经传递的主要组织者,它们将谷氨酸受体和信号分子聚集在离散的突触位置。因此,单个 PSD 支架的遗传改变会破坏整个多蛋白模块的功能,而不是单个谷氨酸能机制的功能,从而导致受影响神经元出现一系列分子和结构异常。尽管存在如此广泛的分子后果,但谷氨酸受体支架的敲除、敲低或敲入通常会影响特定行为的一部分,从而塑造和专门化普遍存在的谷氨酸能神经递质系统的作用。因此,旨在控制神经元支架功能的方法可能具有很高的潜力,可以恢复精神疾病患者的行为障碍和共病。在这里,我们总结了一系列使用基因修饰小鼠的实验,揭示了主要 N-甲基-D-天冬氨酸 (NMDA) 和 I 组代谢型谷氨酸 (mGluR1/5) 受体支架在行为中的作用,讨论了这些发现的临床意义,并提出了未来的研究方向。
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