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Lactate is an energy substrate for rodent cortical neurons and enhances their firing activity

by Naudé, Jérémie , Lambolez, Bertrand , Roeper, Jochen , Staiger, Jochen F , Imamura, Hiromi , Seino, Susumu , Lacroix, Alexandre , Geoffroy, Hélène , Cauli, Bruno , Karagiannis, Anastassios , Hepp, Régine , Egger, Richard , Li, Dongdong , Rossier, Jean , Plaisier, Fabrice , Piquet, Juliette , Gallopin, Thierry , Le Gac, Benjamin

in Adenosine Triphosphate / Animals / Astrocytes / brain metabolism / Cerebral cortex / Cerebral Cortex - cytology / Cerebral Cortex - metabolism / Dextrose / Energy / Energy metabolism / Energy Metabolism - physiology / Energy resources / Firing pattern / Glucose / Glucose - metabolism / Glycolysis / Human health and pathology / Hypotheses / interneuron / katp channel / KATP Channels / Lactates / Lactic acid / Lactic Acid - metabolism / Life Sciences / Male / Metabolism / Mice / Mice, Inbred C57BL / Neocortex / Neurons / Neurons - metabolism / Neurons - physiology / Neuroscience / Oxidative Phosphorylation / Physiological aspects / Physiology / Polypeptides / Potassium channels / pyramidal cell / Rats / Rats, Wistar

2021

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Lactate is an energy substrate for rodent cortical neurons and enhances their firing activity

2021

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2021

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Journal Article

Lactate is an energy substrate for rodent cortical neurons and enhances their firing activity

Naudé, Jérémie,

Lambolez, Bertrand,

Roeper, Jochen,

Staiger, Jochen F,

Imamura, Hiromi,

Seino, Susumu,

Lacroix, Alexandre,

Geoffroy, Hélène,

Cauli, Bruno,

Karagiannis, Anastassios,

Hepp, Régine,

Egger, Richard,

Li, Dongdong,

Rossier, Jean,

Plaisier, Fabrice,

Piquet, Juliette,

Gallopin, Thierry,

Le Gac, Benjamin

2021

Overview

Glucose is the mandatory fuel for the brain, yet the relative contribution of glucose and lactate for neuronal energy metabolism is unclear. We found that increased lactate, but not glucose concentration, enhances the spiking activity of neurons of the cerebral cortex. Enhanced spiking was dependent on ATP-sensitive potassium (K ATP ) channels formed with KCNJ11 and ABCC8 subunits, which we show are functionally expressed in most neocortical neuronal types. We also demonstrate the ability of cortical neurons to take-up and metabolize lactate. We further reveal that ATP is produced by cortical neurons largely via oxidative phosphorylation and only modestly by glycolysis. Our data demonstrate that in active neurons, lactate is preferred to glucose as an energy substrate, and that lactate metabolism shapes neuronal activity in the neocortex through K ATP channels. Our results highlight the importance of metabolic crosstalk between neurons and astrocytes for brain function.

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Publisher

eLife Science Publications, Ltd,eLife Sciences Publications Ltd,eLife Sciences Publication,eLife Sciences Publications, Ltd

Subject

Adenosine Triphosphate

/ Animals

/ Astrocytes

/ brain metabolism

/ Cerebral cortex

/ Cerebral Cortex - cytology

/ Cerebral Cortex - metabolism