Abstract

The effects of emeriamine, a fungal metabolite and a potent inhibitor of mitochondrial fatty acid oxidation, on ketogenesis and lipid secretion were examined in isolated perfused livers from 2-day-fasted rats. Liver perfusion with increasing concentrations of emeriamine up to 3 mumol caused a dose-dependent inhibition of ketone body production. The hepatic uptake of exogenous oleic acid substrate was comparable in the control and emeriamine-treated livers. The addition of 2 mumol emeriamine to the perfusion medium at either the beginning of perfusion or 2 h later caused immediate and almost complete cessation of ketone body production, which was accompanied by a concomitant decrease in the beta-hydroxybutyrate: acetoacetate ratio, suggesting a decreased production of NADH via mitochondrial beta-oxidation. Conversely, both triglyceride and cholesterol secretions were elevated, indicating a reciprocal response in ketogenesis and lipid secretion by the livers. The proportion of oleate in the perfusate triglyceride obtained from emeriamine-treated livers was significantly higher than that from control livers. In the post-perfused liver triglyceride, oleate was progressively increased in the livers treated with the inhibitor 2 h after perfusion and at the beginning of perfusion, respectively. These results indicate that direct inhibition of fatty acid oxidation diverts the exogenous fatty acids to the esterification pathway, and subsequently stimulate the synthesis and secretion of triglyceride and cholesterol. The fatty acid oxidation rate in the liver is, therefore, a critical determinant for the synthesis and secretion of these lipid components.

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