Quantitative proton nuclear magnetic resonance of plasma for screening hepatic metabolism during ethanol infusion in cats

Abstract

The effects of increasing blood ethanol levels on hepatic metabolism were studied in anesthetized cats whose prior fluid intake contained ethanol for 24 days. A hepatic venous long-circuit technique with an extracorporeal reservoir was used to allow hemodynamic measurements and repeated sampling of arterial, portal, and hepatic venous blood without depletion of blood volume. For ethanol, V_max was 106 ± 15 μmol∙min⁻¹∙100∙g⁻¹ liver and K_m was 164 ± 31 μM. A previous study showed that there were no changes in O₂ uptake by the liver, suggesting other oxidative processes were suppressed during ethanol metabolism. In this study, proton nuclear magnetic resonance spectroscopy was used to simultaneously screen several plasma metabolites to elucidate other metabolic processes that may be perturbed in the liver during ethanol infusion. Hepatic lactate uptake remained unaltered when ethanol metabolism was less than 0.5 V_max but was suppressed on an equimolar basis with ethanol metabolism when ethanol metabolism rose above 0.5 V_max. Thus, lactate oxidation is one process that can be suppressed to allow ethanol oxidation without additional O₂ uptake by the liver. In addition, no release of acetate from the liver occurred during ethanol metabolism in these experiments. This surprising finding suggests ethanol metabolism may, under some conditions or in some species, result in fatty acid synthesis rather than acetate release. Eight other major metabolites remained unchanged during ethanol infusion.Key words: liver circulation, hepatic ethanol metabolism, hepatic glucose metabolism, acetate metabolism, β-hydroxybutyrate metabolism.