ß-Hydroxybutyrate Boosts Mitochondrial and Neuronal Metabolism but is not Preferred Over Glucose Under Activated Conditions.

ABSTRACT

The ketone body, ß-hydroxybutyrate (ßOHB), is metabolised by the brain alongside the mandatory brain fuel glucose. To examine the extent and circumstances by which ßOHB can supplement glucose metabolism, we studied guinea pig cortical brain slices using increasing concentrations of [U-13C]D-ßOHB in conjunction with [1-13C]D-glucose under conditions of normo- and hypoglycaemia, as well as under high potassium (40 mmol/L K+) depolarization in normo- and hypoglycaemic conditions. The contribution of ßOHB to synthesis of GABA was also probed by inhibiting the synthesis of glutamine, a GABA precursor, with methionine sulfoximine (MSO). [U-13C]D-ßOHB at lower concentrations (0.25 and 1.25 mmol/L) stimulated mitochondrial metabolism, producing greater total incorporation of label into glutamate and GABA but did not have a similar effect in the cytosolic compartment where labelling of glutamine was reduced at 1.25 mmol/L [U-13C]D-ßOHB. At higher concentrations (2.5 mmol/L) [U-13C]D-ßOHB inhibited metabolism of [1-13C]D-glucose, and reduced total label incorporation and total metabolite pools. When glucose levels were reduced, ßOHB was able to partially restore the loss of glutamate and GABA caused by hypoglycaemia, but was not able to supplement levels of lactate, glutamine or alanine or to prevent the increase in aspartate. Under depolarizing conditions glucose was the preferred substrate over ßOHB, even in hypoglycaemic conditions where comparatively less ßOHB was incorporated except into aspartate isotopomers. Inhibition of glutamine synthesis with MSO had no significant effect on incorporation of label from [U-13C]D-ßOHB into GABA C2,1 indicating that the majority of this GABA was synthesized in GABAergic neurons from [U-13C]D-ßOHB rather than from Gln C4,5 imported from astrocytes.