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Hepatic synthesis of triacylglycerols containing medium-chain fatty acids is dominated by diacylglycerol acyltransferase 1 and efficiently inhibited by etomoxir

Klaus Wunderling, Christina Leopold, Isabell Jamitzky, Mohamed H. Yaghmour, Fabian Zink, Dagmar Kratky, Christoph Thiele

2020Molecular Metabolism19 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: Medium-chain fatty acids (MCFAs) play an increasing role in human nutrition. In the liver, one fraction is used for synthesis of MCFA-containing triacylglycerol (MCFA-TG), and the rest is used for oxidative energy production or ketogenesis. We investigated which enzymes catalyse the synthesis of MCFA-TG and how inhibition of MCFA-TG synthesis or fatty acid (FA) oxidation influences the metabolic fate of the MCFAs. METHODS: mice were treated with inhibitors against DGAT1, DGAT2, or FA β-oxidation. RESULTS: Inhibition or deletion of DGAT1 resulted in a reduction of MCFA-TG synthesis by 70%, while long-chain (LC)FA-TG synthesis was reduced by 20%. In contrast, DGAT2 inhibition increased MCFA-TG formation by 50%, while LCFA-TG synthesis was reduced by 5-25%. Inhibition of β-oxidation by the specific inhibitor teglicar strongly increased MCFA-TG synthesis. In contrast, the widely used β-oxidation inhibitor etomoxir blocked MCFA-TG synthesis, phenocopying DGAT1 inhibition. CONCLUSIONS: DGAT1 is the major enzyme for hepatic MCFA-TG synthesis. Its loss can only partially be compensated by DGAT2. Specific inhibition of β-oxidation leads to a compensatory increase in MCFA-TG synthesis, whereas etomoxir blocks both β-oxidation and MCFA-TG synthesis, indicating a strong off-target effect on DGAT1.

Topics & Concepts

ChemistryKetogenesisBiochemistryDiacylglycerol kinaseDe novo synthesisBeta oxidationBiosynthesisEnzymeLipid metabolismOxidative phosphorylationMetabolismKetone bodiesProtein kinase CLipid metabolism and biosynthesisFatty Acid Research and HealthCannabis and Cannabinoid Research
Hepatic synthesis of triacylglycerols containing medium-chain fatty acids is dominated by diacylglycerol acyltransferase 1 and efficiently inhibited by etomoxir | Litcius