A novel hepatocyte ketone production assay to help the selection of nutrients for the ketogenic diet treatment of epilepsy

The classic ketogenic diet is an effective treatment option for drug-resistant epilepsy, but its high fat content challenges patient compliance. Optimizing liver ketone production guided by a method comparing substrates for their ketogenic potential may help to reduce the fat content of the diet wit...

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Bibliographic Details
Published in:Scientific reports 2024-05, Vol.14 (1), p.11940-11940, Article 11940
Main Authors: Meeusen, Hester, Romagnolo, Alessia, Holsink, Sophie A. C., van den Broek, Thijs J. M., van Helvoort, Ardy, Gorter, Jan A., van Vliet, Erwin A., Verkuyl, J. Martin, Silva, Jose P., Aronica, Eleonora
Format: Article
Language:English
Subjects:
3-Hydroxybutyric Acid - metabolism
631/443/319/2723
631/45/287/1183
692/308/2778
692/617/375/178
Acetic acid
Carbon
Diet
Diet, Ketogenic - methods
Dietary fat
Drug resistance
Drug Resistant Epilepsy - diet therapy
Drug Resistant Epilepsy - metabolism
Epilepsy
Epilepsy - diet therapy
Epilepsy - metabolism
Fatty acids
Fatty Acids - metabolism
Hepatocytes
Hepatocytes - metabolism
High fat diet
Humanities and Social Sciences
Humans
In vitro assay
Ketogenesis
Ketogenic diet
Ketones
Ketones - metabolism
Lipids/oxidation
Liver
Low carbohydrate diet
multidisciplinary
Oleic acid
Polyunsaturated fatty acids
Science
Science (multidisciplinary)
β-Hydroxybutyrate
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Summary:The classic ketogenic diet is an effective treatment option for drug-resistant epilepsy, but its high fat content challenges patient compliance. Optimizing liver ketone production guided by a method comparing substrates for their ketogenic potential may help to reduce the fat content of the diet without loss in ketosis induction. Here, we present a liver cell assay measuring the β-hydroxybutyrate (βHB) yield from fatty acid substrates. Even chain albumin-conjugated fatty acids comprising between 4 and 18 carbon atoms showed a sigmoidal concentration-βHB response curve (CRC) whereas acetate and omega-3 PUFAs produced no CRC. While CRCs were not distinguished by their half-maximal effective concentration (EC50), they differed by maximum response, which related inversely to the carbon chain length and was highest for butyrate. The assay also suitably assessed the βHB yield from fatty acid blends detecting shifts in maximum response from exchanging medium chain fatty acids for long chain fatty acids. The assay further detected a dual role for butyrate and hexanoic acid as ketogenic substrate at high concentration and ketogenic enhancer at low concentration, augmenting the βHB yield from oleic acid and a fatty acid blend. The assay also found propionate to inhibit ketogenesis from oleic acid and a fatty acid blend at low physiological concentration. Although the in vitro assay shows promise as a tool to optimize the ketogenic yield of a fat blend, its predictive value requires human validation.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-62723-7