成年新皮层抑制性回路的高度特异性结构可塑性。

Highly specific structural plasticity of inhibitory circuits in the adult neocortex.

机构信息

Brain Research Institute, University of Zurich, Zurich, Switzerland.

出版信息

Neuroscientist. 2013 Aug;19(4):384-93. doi: 10.1177/1073858413479824. Epub 2013 Mar 8.

DOI:10.1177/1073858413479824

PMID:23474602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4725195/

Abstract

Inhibitory neurons are known to play a vital role in defining the window for critical period plasticity during development, and it is increasingly apparent that they continue to exert powerful control over experience-dependent cortical plasticity in adulthood. Recent in vivo imaging studies demonstrate that long-term plasticity of inhibitory circuits is manifested at an anatomical level. Changes in sensory experience drive structural remodeling in inhibitory interneurons in a cell-type and circuit-specific manner. Inhibitory synapse formation and elimination can occur with a great deal of spatial and temporal precision and are locally coordinated with excitatory synaptic changes on the same neuron. We suggest that the specificity of inhibitory synapse dynamics may serve to differentially modulate activity across the dendritic arbor, to selectively tune parts of a local circuit, or potentially discriminate between activities in distinct local circuits. We further review evidence suggesting that inhibitory circuit structural changes instruct excitatory/inhibitory balance while enabling functional reorganization to occur through Hebbian forms of plasticity.

摘要

抑制性神经元在发育过程中确定关键期可塑性的窗口中起着至关重要的作用，越来越明显的是，它们在成年期继续对经验依赖性皮质可塑性施加强大的控制。最近的体内成像研究表明，抑制性回路的长期可塑性在解剖学水平上表现出来。感觉经验的变化以细胞类型和回路特异性的方式驱动抑制性中间神经元的结构重塑。抑制性突触的形成和消除可以具有很高的时空精度，并与同一神经元上的兴奋性突触变化在局部协调。我们认为，抑制性突触动力学的特异性可用于跨树突分支差异调节活动，选择性地调整局部回路的部分，或可能区分不同局部回路的活动。我们进一步回顾了证据，表明抑制性回路结构变化在通过赫布形式的可塑性实现功能重组的同时，指导兴奋性/抑制性平衡。

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