Los puntos clave no están disponibles para este artículo en este momento.
The relationship between ketosis and brain amino acid metabolism was studied in mice that consumed a ketogenic diet (>90% of calories as lipid). After 3 days on the diet the blood concentration of 3-OH-butyrate was approximately 5 mmol/l (control = 0.06-0.1 mmol/l). In forebrain and cerebellum the concentration of 3-OH-butyrate was approximately 10-fold higher than control. Brain citrate and lactate were greater in the ketotic animals. The concentration of whole brain free coenzyme A was lower in ketotic mice. Brain aspartate was reduced in forebrain and cerebellum, but glutamate and glutamine were unchanged. When (15)Nleucine was administered to follow N metabolism, this labeled amino acid accumulated to a greater extent in the blood and brain of ketotic mice. Total brain aspartate ((14)N + (15)N) was reduced in the ketotic group. The (15)Naspartate/(15)Nglutamate ratio was lower in ketotic animals, consistent with a shift in the equilibrium of the aspartate aminotransferase reaction away from aspartate. Label in (15)NGABA and total (15)NGABA was increased in ketotic animals. When the ketotic animals were injected with glucose, there was a partial blunting of ketoacidemia within 40 min as well as an increase of brain aspartate, which was similar to control. When U-(13)C(6)glucose was injected, the (13)C label appeared rapidly in brain lactate and in amino acids. Label in brain U-(13)C(3)lactate was greater in the ketotic group. The ratio of brain (13)C-amino acid/(13)C-lactate, which reflects the fraction of amino acid carbon that is derived from glucose, was much lower in ketosis, indicating that another carbon source, i.e., ketone bodies, were precursor to aspartate, glutamate, glutamine and GABA.
Yudkoff et al. (Fri,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: