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The distinct roles of calcium in rapid control of neuronal glycolysis and the tricarboxylic acid cycle

by Díaz-García, Carlos Manlio , Meyer, Dylan J , Rahman, Mahia , Martínez-François, Juan Ramón , Nathwani, Nidhi , Yellen, Gary

in Animals / Biosensors / Brain - cytology / Brain - metabolism / Calcium (mitochondrial) / Calcium - metabolism / Calcium influx / Calcium signalling / Calcium-binding protein / Calcium-binding proteins / Calmodulin / Citric Acid Cycle / Cytosol / Cytosol - metabolism / Dehydrogenases / Energy / Energy Metabolism / Enzymes / Female / Glucose metabolism / Glycolysis / Granule cells / Hippocampus / Lifetime / Male / Metabolism / Mice / Mice, Inbred C57BL / Mitochondria / Mitochondria - metabolism / mitochondrial calcium / mitochondrial calcium uniporter / NAD / NAD - metabolism / NADH / NADP - metabolism / neuronal glycolysis / Neurons / Neurons - metabolism / Neuroscience / Oxidative Phosphorylation / Oxidoreductases / Phosphorylation / Plasma / Sensors / Signal transduction / Sodium - metabolism / Tricarboxylic acid cycle

2021

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The distinct roles of calcium in rapid control of neuronal glycolysis and the tricarboxylic acid cycle

by Díaz-García, Carlos Manlio , Meyer, Dylan J , Rahman, Mahia , Martínez-François, Juan Ramón , Nathwani, Nidhi , Yellen, Gary

2021

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The distinct roles of calcium in rapid control of neuronal glycolysis and the tricarboxylic acid cycle

by Díaz-García, Carlos Manlio , Meyer, Dylan J , Rahman, Mahia , Martínez-François, Juan Ramón , Nathwani, Nidhi , Yellen, Gary

2021

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Journal Article

The distinct roles of calcium in rapid control of neuronal glycolysis and the tricarboxylic acid cycle

Díaz-García, Carlos Manlio,

Meyer, Dylan J,

Rahman, Mahia,

Martínez-François, Juan Ramón,

Nathwani, Nidhi,

Yellen, Gary

2021

Overview

When neurons engage in intense periods of activity, the consequent increase in energy demand can be met by the coordinated activation of glycolysis, the tricarboxylic acid (TCA) cycle, and oxidative phosphorylation. However, the trigger for glycolytic activation is unknown and the role for Ca 2+ in the mitochondrial responses has been debated. Using genetically encoded fluorescent biosensors and NAD(P)H autofluorescence imaging in acute hippocampal slices, here we find that Ca 2+ uptake into the mitochondria is responsible for the buildup of mitochondrial NADH, probably through Ca 2+ activation of dehydrogenases in the TCA cycle. In the cytosol, we do not observe a role for the Ca 2+ /calmodulin signaling pathway, or AMPK, in mediating the rise in glycolytic NADH in response to acute stimulation. Aerobic glycolysis in neurons is triggered mainly by the energy demand resulting from either Na + or Ca 2+ extrusion, and in mouse dentate granule cells, Ca 2+ creates the majority of this demand.

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Publisher

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

Subject

/ Calcium (mitochondrial)

/ Calcium - metabolism

/ Calcium influx