Transferrin Receptor Controls AMPA Receptor Trafficking Efficiency and Synaptic Plasticity

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作者
Ke Liu
Run Lei
Qiong Li
Xin-Xin Wang
Qian Wu
Peng An
Jianchao Zhang
Minyan Zhu
Zhiheng Xu
Yang Hong
Fudi Wang
Ying Shen
Hongchang Li
Huashun Li
机构
[1] West China Developmental & Stem Cell Institute,Department of Neurobiology
[2] West China Second Hospital,Department of Nutrition
[3] State Key Laboratory of Biotherapy and Cancer Center,Department of Cell Biology & Physiology
[4] West China Hospital,undefined
[5] Sichuan University and Collaborative Innovation Center for Biotherapy,undefined
[6] Shenzhen Key Laboratory for Molecular Biology of Neural Development,undefined
[7] Laboratory of Developmental and Regenerative Biology,undefined
[8] Institute of Biomedicine & Biotechnology,undefined
[9] Shenzhen Institutes of Advanced Technology,undefined
[10] Chinese Academy of Sciences,undefined
[11] SARITEX Center for Stem Cell Engineering Translational Medicine,undefined
[12] Shanghai East Hospital,undefined
[13] Tongji University School of Medicine & Advanced Institute of Translational Medicine,undefined
[14] ATCG Corp.,undefined
[15] BioBay,undefined
[16] Suzhou Industrial Park,undefined
[17] Key Laboratory of Medical Neurobiology of Ministry of Health of China,undefined
[18] Zhejiang Province,undefined
[19] Key Laboratory of Neurobiology,undefined
[20] Zhejiang University School of Medicine,undefined
[21] School of Public Health,undefined
[22] Zhejiang University,undefined
[23] State Key Laboratory of Molecular Developmental Biology,undefined
[24] Institute of Genetics and Developmental Biology,undefined
[25] Chinese Academy of Sciences,undefined
[26] University of Pittsburgh School of Medicine,undefined
来源
Scientific Reports | / 6卷
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摘要
Transferrin receptor (TFR) is an important iron transporter regulating iron homeostasis and has long been used as a marker for clathrin mediated endocytosis. However, little is known about its additional function other than iron transport in the development of central nervous system (CNS). Here we demonstrate that TFR functions as a regulator to control AMPA receptor trafficking efficiency and synaptic plasticity. The conditional knockout (KO) of TFR in neural progenitor cells causes mice to develop progressive epileptic seizure and dramatically reduces basal synaptic transmission and long-term potentiation (LTP). We further demonstrate that TFR KO remarkably reduces the binding efficiency of GluR2 to AP2 and subsequently decreases AMPA receptor endocytosis and recycling. Thus, our study reveals that TFR functions as a novel regulator to control AMPA trafficking efficiency and synaptic plasticity.
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