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海马AMPA型谷氨酸受体磷酸化的化学计量学和磷酸异构体

Stoichiometry and phosphoisotypes of hippocampal AMPA-type glutamate receptor phosphorylation.

作者信息

Hosokawa Tomohisa, Mitsushima Dai, Kaneko Rina, Hayashi Yasunori

机构信息

Brain Science Institute, RIKEN, Wako, Saitama 351-0198, Japan.

Department of Physiology, Yokohama City University Graduate School of Medicine, Yokohama, Kanagawa 236-0004, Japan; Department of Systems Neuroscience, Yamaguchi University Graduate School of Medicine, Ube, Yamaguchi 755-8505, Japan.

出版信息

Neuron. 2015 Jan 7;85(1):60-67. doi: 10.1016/j.neuron.2014.11.026. Epub 2014 Dec 18.

DOI:10.1016/j.neuron.2014.11.026
PMID:25533481
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4289098/
Abstract

It has been proposed that the AMPAR phosphorylation regulates trafficking and channel activity, thereby playing an important role in synaptic plasticity. However, the actual stoichiometry of phosphorylation, information critical to understand the role of phosphorylation, is not known because of the lack of appropriate techniques for measurement. Here, using Phos-tag SDS-PAGE, we estimated the proportion of phosphorylated AMPAR subunit GluA1. The level of phosphorylated GluA1 at S831 and S845, two major sites implicated in AMPAR regulation, is almost negligible. Less than 1% of GluA1 is phosphorylated at S831 and less than 0.1% at S845. Considering the number of AMPAR at each synapse, the majority of synapses do not contain any phosphorylated AMPAR. Also, we did not see evidence of GluA1 dually phosphorylated at S831 and S845. Neuronal stimulation and learning increased phosphorylation, but the proportion was still low. Our results impel us to reconsider the mechanisms underlying synaptic plasticity.

摘要

有人提出,α-氨基-3-羟基-5-甲基-4-异恶唑丙酸受体(AMPAR)磷酸化调节转运和通道活性,从而在突触可塑性中发挥重要作用。然而,由于缺乏合适的测量技术,磷酸化的实际化学计量(理解磷酸化作用的关键信息)尚不清楚。在此,我们使用Phos-tag SDS-PAGE估计了磷酸化的AMPAR亚基GluA1的比例。在与AMPAR调节相关的两个主要位点S831和S845处,磷酸化的GluA1水平几乎可以忽略不计。在S831处,不到1%的GluA1被磷酸化,在S845处,不到0.1%被磷酸化。考虑到每个突触处AMPAR的数量,大多数突触不含任何磷酸化的AMPAR。此外,我们没有看到GluA1在S831和S845处发生双重磷酸化的证据。神经元刺激和学习增加了磷酸化,但比例仍然很低。我们的结果促使我们重新考虑突触可塑性的潜在机制。

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