神经活动引发神经元的氧化代谢，随后是星形胶质细胞的糖酵解。

Neural activity triggers neuronal oxidative metabolism followed by astrocytic glycolysis.

作者信息

Kasischke Karl A, Vishwasrao Harshad D, Fisher Patricia J, Zipfel Warren R, Webb Watt W

机构信息

School of Applied and Engineering Physics, Cornell University, Ithaca, NY 14853, USA.

出版信息

Science. 2004 Jul 2;305(5680):99-103. doi: 10.1126/science.1096485.

DOI:10.1126/science.1096485

PMID:15232110

Abstract

We have found that two-photon fluorescence imaging of nicotinamide adenine dinucleotide (NADH) provides the sensitivity and spatial three-dimensional resolution to resolve metabolic signatures in processes of astrocytes and neurons deep in highly scattering brain tissue slices. This functional imaging reveals spatiotemporal partitioning of glycolytic and oxidative metabolism between astrocytes and neurons during focal neural activity that establishes a unifying hypothesis for neurometabolic coupling in which early oxidative metabolism in neurons is eventually sustained by late activation of the astrocyte-neuron lactate shuttle. Our model integrates existing views of brain energy metabolism and is in accord with known macroscopic physiological changes in vivo.

摘要

我们发现，烟酰胺腺嘌呤二核苷酸（NADH）的双光子荧光成像提供了灵敏度和空间三维分辨率，以解析高度散射的脑组织切片深处星形胶质细胞和神经元过程中的代谢特征。这种功能成像揭示了局灶性神经活动期间星形胶质细胞和神经元之间糖酵解和氧化代谢的时空分配，这为神经代谢耦合建立了一个统一的假设，即神经元中的早期氧化代谢最终由星形胶质细胞 - 神经元乳酸穿梭的后期激活维持。我们的模型整合了现有的脑能量代谢观点，并与体内已知的宏观生理变化一致。

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神经活动引发神经元的氧化代谢，随后是星形胶质细胞的糖酵解。

Neural activity triggers neuronal oxidative metabolism followed by astrocytic glycolysis.

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