利用设计的基因编码传感器进行超快神经元多巴胺动力学成像。

Ultrafast neuronal imaging of dopamine dynamics with designed genetically encoded sensors.

机构信息

Department of Biochemistry and Molecular Medicine, University of California, Davis, 2700 Stockton Boulevard, Sacramento, CA 95817, USA.

Division of Biology and Biological Engineering, California Institute of Technology, Pasadena, CA 91125, USA.

出版信息

Science. 2018 Jun 29;360(6396). doi: 10.1126/science.aat4422. Epub 2018 May 31.

DOI:10.1126/science.aat4422

PMID:29853555

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6287765/

Abstract

Neuromodulatory systems exert profound influences on brain function. Understanding how these systems modify the operating mode of target circuits requires spatiotemporally precise measurement of neuromodulator release. We developed dLight1, an intensity-based genetically encoded dopamine indicator, to enable optical recording of dopamine dynamics with high spatiotemporal resolution in behaving mice. We demonstrated the utility of dLight1 by imaging dopamine dynamics simultaneously with pharmacological manipulation, electrophysiological or optogenetic stimulation, and calcium imaging of local neuronal activity. dLight1 enabled chronic tracking of learning-induced changes in millisecond dopamine transients in mouse striatum. Further, we used dLight1 to image spatially distinct, functionally heterogeneous dopamine transients relevant to learning and motor control in mouse cortex. We also validated our sensor design platform for developing norepinephrine, serotonin, melatonin, and opioid neuropeptide indicators.

摘要

神经调节系统对大脑功能有深远的影响。要了解这些系统如何改变目标电路的运行模式，就需要对神经调质的释放进行时空精确的测量。我们开发了基于强度的基因编码多巴胺指示剂 dLight1，以实现在行为小鼠中具有高时空分辨率的光学记录多巴胺动力学。我们通过同时对药理学操作、电生理或光遗传学刺激以及局部神经元活动的钙成像进行成像，证明了 dLight1 的实用性。dLight1 使我们能够在毫秒级时间尺度上对学习诱导的小鼠纹状体多巴胺瞬变进行慢性追踪。此外，我们还使用 dLight1 对与学习和运动控制相关的在空间上不同、功能上不同的多巴胺瞬变进行成像。我们还验证了我们的传感器设计平台，用于开发去甲肾上腺素、血清素、褪黑素和阿片神经肽指示剂。

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