Author
Listed:
- Iben Lundgaard
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Baoman Li
(Center for Translational Neuromedicine, University of Rochester
China Medical University)
- Lulu Xie
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Hongyi Kang
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Simon Sanggaard
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- John D. R. Haswell
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Wei Sun
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Siri Goldman
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Solomiya Blekot
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Michael Nielsen
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Takahiro Takano
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Rashid Deane
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
- Maiken Nedergaard
(Center for Translational Neuromedicine, University of Rochester
Faculty of Health and Medical Sciences, Center for Basic and Translational Neuroscience, University of Copenhagen)
Abstract
Metabolically, the brain is a highly active organ that relies almost exclusively on glucose as its energy source. According to the astrocyte-to-neuron lactate shuttle hypothesis, glucose is taken up by astrocytes and converted to lactate, which is then oxidized by neurons. Here we show, using two-photon imaging of a near-infrared 2-deoxyglucose analogue (2DG-IR), that glucose is taken up preferentially by neurons in awake behaving mice. Anaesthesia suppressed neuronal 2DG-IR uptake and sensory stimulation was associated with a sharp increase in neuronal, but not astrocytic, 2DG-IR uptake. Moreover, hexokinase, which catalyses the first enzymatic steps in glycolysis, was highly enriched in neurons compared with astrocytes, in mouse as well as in human cortex. These observations suggest that brain activity and neuronal glucose metabolism are directly linked, and identiy the neuron as the principal locus of glucose uptake as visualized by functional brain imaging.
Suggested Citation
Iben Lundgaard & Baoman Li & Lulu Xie & Hongyi Kang & Simon Sanggaard & John D. R. Haswell & Wei Sun & Siri Goldman & Solomiya Blekot & Michael Nielsen & Takahiro Takano & Rashid Deane & Maiken Nederg, 2015.
"Direct neuronal glucose uptake heralds activity-dependent increases in cerebral metabolism,"
Nature Communications, Nature, vol. 6(1), pages 1-12, November.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7807
DOI: 10.1038/ncomms7807
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