Chronic ethanol administration alters hepatic rates of glycerol phosphorylation and glycerol 3-phosphate oxidation: a dynamic in vivo 31P magnetic resonance spectroscopy study

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We used dynamic in vivo 31P magnetic resonance spectroscopy to noninvasively study the metabolism of glycerol by the liver in living rats, as a means of detecting subtle metabolic changes induced by chronic ethanol consumption. Rats subjected to chronic ethanol consumption and their pair-fed controls were given a metabolic load of glycerol (0.75 or 1.3 mL glycerol·kg body mass-1, i.p. or i.v) under normoxic or hyperoxic (98% O2) conditions. Changes in the level of glycerol 3-phosphate were followed in situ by monitoring the hepatic 31P phosphomonoester resonance every 7 or 13 min for up to 330 min. When challenged with a large dose of glycerol, chronic ethanol-treated rats exhibited less accumulation of glycerol 3-phosphate than controls, independent of the route of administration of the glycerol or whether the two groups were fasted or fed. For example, 1.3 mL glycerol·kg-1 i.v. under normoxic conditions resulted in a two-fold increase in phosphomonoester in ethanol-treated rats compared with a five-fold increase in controls. The ethanol-treated rats also showed a slower rate of phosphorylation of glycerol and slower oxidation of glycerol 3-phosphate than controls, indicating decreased activities of the glycerol kinase and glycerol 3-phosphate dehydrogenase steps, and hence slower glycerol utilization. The rate of glycerol utilization was dose and oxygen concentration dependent. Kinetic analysis indicated that the chronic ethanol-induced decrease in the glycerol 3-phosphate dehydrogenase reaction was due to a decreased rate of NADH reoxidation in the liver, likely owing to a decrease in oxygen supply or utilization in the ethanol-treated rats. These observations support the hypothesis of pre-existing hypoxia in rat liver after chronic ethanol administration. This study demonstrates the utility of dynamic in vivo 31P magnetic resonance spectroscopy in following the metabolism of a glycerol load as a sensitive, nonperturbing, and potentially clinically applicable test of liver function.Key words: 31P magnetic resonance spectroscopy, ethanol, liver, glycerol, metabolism.