光遗传学控制突触 AMPA 受体内吞作用揭示 LTD 在运动学习中的作用。

Optogenetic Control of Synaptic AMPA Receptor Endocytosis Reveals Roles of LTD in Motor Learning.

机构信息

Department of Physiology, Keio University School of Medicine, Tokyo 160-8582, Japan.

Department of Physiology, Tokai University School of Medicine, Kanagawa 259-1193, Japan.

出版信息

Neuron. 2018 Sep 5;99(5):985-998.e6. doi: 10.1016/j.neuron.2018.07.034. Epub 2018 Aug 16.

DOI:10.1016/j.neuron.2018.07.034

PMID:30122381

Abstract

Long-term depression (LTD) of AMPA-type glutamate receptor (AMPA receptor)-mediated synaptic transmission has been proposed as a cellular substrate for learning and memory. Although activity-induced AMPA receptor endocytosis is believed to underlie LTD, it remains largely unclear whether LTD and AMPA receptor endocytosis at specific synapses are causally linked to learning and memory in vivo. Here we developed a new optogenetic tool, termed PhotonSABER, which enabled the temporal, spatial, and cell-type-specific control of AMPA receptor endocytosis at active synapses, while the basal synaptic properties and other forms of synaptic plasticity were unaffected. We found that fiberoptic illumination to Purkinje cells expressing PhotonSABER in vivo inhibited cerebellar motor learning during adaptation of the horizontal optokinetic response and vestibulo-ocular reflex, as well as synaptic AMPA receptor decrease in the flocculus. Our results demonstrate that LTD and AMPA receptor endocytosis at specific neuronal circuits were directly responsible for motor learning in vivo. VIDEO ABSTRACT.

摘要

长时程抑制（ LTD ）是 AMPA 型谷氨酸受体（ AMPA 受体）介导的突触传递的一种形式，它被认为是学习和记忆的细胞基础。尽管活性诱导的 AMPA 受体内吞作用被认为是 LTD 的基础，但 LTD 和特定突触处的 AMPA 受体内吞作用是否与体内学习和记忆有因果关系在很大程度上仍不清楚。在这里，我们开发了一种新的光遗传学工具，称为 PhotonSABER，它可以在活性突触处实现 AMPA 受体内吞作用的时间、空间和细胞类型特异性控制，而基础突触特性和其他形式的突触可塑性则不受影响。我们发现，在 vivo 中表达 PhotonSABER 的浦肯野细胞进行光纤照射，会抑制水平光运动反应和前庭眼反射适应过程中的小脑运动学习，以及绒球的突触 AMPA 受体减少。我们的结果表明，特定神经元回路中的 LTD 和 AMPA 受体内吞作用直接负责体内的运动学习。

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光遗传学控制突触 AMPA 受体内吞作用揭示 LTD 在运动学习中的作用。

Optogenetic Control of Synaptic AMPA Receptor Endocytosis Reveals Roles of LTD in Motor Learning.

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