Abstract
The medium-chain fatty acids octanoic acid (C8) and decanoic acid (C10) are gaining attention as beneficial brain fuels in several neurological disorders. The protective effects of C8 and C10 have been proposed to be driven by hepatic production of ketone bodies. However, plasma ketone levels correlates poorly with the cerebral effects of C8 and C10, suggesting that additional mechanism are in place. Here we investigated cellular C8 and C10 metabolism in the brain and explored how the protective effects of C8 and C10 may be linked to cellular metabolism. Using dynamic isotope labeling, with [U-13C]C8 and [U-13C]C10 as metabolic substrates, we show that both C8 and C10 are oxidatively metabolized in mouse brain slices. The 13C enrichment from metabolism of [U-13C]C8 and [U-13C]C10 was particularly prominent in glutamine, suggesting that C8 and C10 metabolism primarily occurs in astrocytes. This finding was corroborated in cultured astrocytes in which C8 increased the respiration linked to ATP production, whereas C10 elevated the mitochondrial proton leak. When C8 and C10 were provided together as metabolic substrates in brain slices, metabolism of C10 was predominant over that of C8. Furthermore, metabolism of both [U-13C]C8 and [U-13C]C10 was unaffected by etomoxir indicating that it is independent of carnitine palmitoyltransferase I (CPT-1). Finally, we show that inhibition of glutamine synthesis selectively reduced 13C accumulation in GABA from [U-13C]C8 and [U-13C]C10 metabolism in brain slices, demonstrating that the glutamine generated from astrocyte C8 and C10 metabolism is utilized for neuronal GABA synthesis. Collectively, the results show that cerebral C8 and C10 metabolism is linked to the metabolic coupling of neurons and astrocytes, which may serve as a protective metabolic mechanism of C8 and C10 supplementation in neurological disorders.
Highlights
Glucose is the primary fuel of the brain
We provide evidence that both C8 and [U-13C]Decanoic acid (C10) (C8) and C10 are oxidatively metabolized in brain slices promoting astrocyte glutamine synthesis
In the tricarboxylic acid (TCA) cycle, the highest 13C accumulation from both [U-13C] C8 and [U-13C]C10 metabolism was found in citrate (C8: 17.4 ± 0.2%, C10: 18.9 ± 0.8%), whereas it was much lower for α-ketoglutarate (C8: 5.4 ± 0.6%, C10: 5.9 ± 0.3%) and malate (C8: 6.5 ± 0.2%, C10: 6.5 ± 0.2%)
Summary
Brain cells can utilize several other metabolic substrates including amino acids, ketone bodies and fatty acids [1]. Diets enriched with mediumchain triglycerides (MCTs) of octanoic acid (C8) and decanoic acid (C10) have shown beneficial effects in Andersen et al Mol Brain (2021) 14:132 neurodegenerative diseases [5]. Studies have found poor correlation between seizure control and plasma ketone levels [12, 13]. Both C8 and C10 are able to cross the blood brain barrier [14, 15] and can reach cerebral concentrations of 200 μM in mice after enriched feeding [16, 17]. As C8 and C10 are well-known metabolic substrates in the periphery [2], they may serve specific metabolic purposes in the brain as well
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