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. 2024 May;168(5):533-554.
doi: 10.1111/jnc.16004. Epub 2023 Nov 6.

The dentate gyrus differentially metabolizes glucose and alternative fuels during rest and stimulation

Elisa M York  1 Anne Miller  1 Sylwia A Stopka  2   3 Juan Ramón Martínez-François  1 Md Amin Hossain  2   3 Gerard Baquer  2   3 Michael S Regan  2   3 Nathalie Y R Agar  2   3   4 Gary Yellen  1
Affiliations

The dentate gyrus differentially metabolizes glucose and alternative fuels during rest and stimulation

Elisa M York et al. J Neurochem. 2024 May.

Abstract

The metabolic demands of neuronal activity are both temporally and spatially dynamic, and neurons are particularly sensitive to disruptions in fuel and oxygen supply. Glucose is considered an obligate fuel for supporting brain metabolism. Although alternative fuels are often available, the extent of their contribution to central carbon metabolism remains debated. Differential fuel metabolism likely depends on cell type, location, and activity state, complicating its study. While biosensors provide excellent spatial and temporal information, they are limited to observations of only a few metabolites. On the other hand, mass spectrometry is rich in chemical information, but traditionally relies on cell culture or homogenized tissue samples. Here, we use mass spectrometry imaging (MALDI-MSI) to focus on the fuel metabolism of the dentate granule cell (DGC) layer in murine hippocampal slices. Using stable isotopes, we explore labeling dynamics at baseline, as well as in response to brief stimulation or fuel competition. We find that at rest, glucose is the predominant fuel metabolized through glycolysis, with little to no measurable contribution from glycerol or fructose. However, lactate/pyruvate, β-hydroxybutyrate (βHB), octanoate, and glutamine can contribute to TCA metabolism to varying degrees. In response to brief depolarization with 50 mM KCl, glucose metabolism was preferentially increased relative to the metabolism of alternative fuels. With an increased supply of alternative fuels, both lactate/pyruvate and βHB can outcompete glucose for TCA cycle entry. While lactate/pyruvate modestly reduced glucose contribution to glycolysis, βHB caused little change in glycolysis. This approach achieves broad metabolite coverage from a spatially defined region of physiological tissue, in which metabolic states are rapidly preserved following experimental manipulation. Using this powerful methodology, we investigated metabolism within the dentate gyrus not only at rest, but also in response to the energetic demand of activation, and in states of fuel competition.

Keywords: brain metabolism; glucose metabolism; ketone body metabolism; lactate metabolism; mass spectrometry imaging; stable isotope tracing.

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Conflict of interest statement

Conflict of Interest Disclosure:

The authors have no conflicts of interest to disclose.

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