经验调控树突的局域化与整体化突触可塑性。
Compartmentalized versus global synaptic plasticity on dendrites controlled by experience.
机构信息
Center for Neural Circuits and Behavior, Section of Neurobiology, Division of Biology and Department of Neuroscience, University of California, San Diego, La Jolla, CA 92093, USA.
出版信息
Neuron. 2011 Dec 22;72(6):1001-11. doi: 10.1016/j.neuron.2011.09.036.
Abstract
Synapses in the brain are continuously modified by experience, but the mechanisms are poorly understood. In vitro and theoretical studies suggest threshold-lowering interactions between nearby synapses that favor clustering of synaptic plasticity within a dendritic branch. Here, a fluorescently tagged AMPA receptor-based optical approach was developed permitting detection of single-synapse plasticity in mouse cortex. Sensory experience preferentially produced synaptic potentiation onto nearby dendritic synapses. Such clustering was significantly reduced by expression of a phospho-mutant AMPA receptor that is insensitive to threshold-lowering modulation for plasticity-driven synaptic incorporation. In contrast to experience, sensory deprivation caused homeostatic synaptic enhancement globally on dendrites. Clustered synaptic potentiation produced by experience could bind behaviorally relevant information onto dendritic subcompartments; global synaptic upscaling by deprivation could equally sensitize all dendritic regions for future synaptic input.
摘要
大脑中的突触会不断根据经验进行修改,但其中的机制尚不清楚。体外和理论研究表明,相邻突触之间存在着降低阈值的相互作用,这有利于突触可塑性在树突分支内聚集。在这里,开发了一种基于荧光标记的 AMPA 受体的光学方法,允许在小鼠皮层中检测单个突触的可塑性。感觉经验优先在附近的树突突触上产生突触增强。通过表达一种对阈值降低调节不敏感的磷酸化突变型 AMPA 受体,这种聚类显著减少,这种受体对可塑性驱动的突触整合具有作用。与经验相反,感觉剥夺会导致树突上的全局突触增强。经验产生的聚类突触增强可以将与行为相关的信息绑定到树突亚区;剥夺引起的全局突触放大同样可以使所有树突区域对未来的突触输入敏感。
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