AIMS: The synthesis of ATP in the liver of the chronic ethanol consumer is suppressed, particularly if the tissue becomes hypoxic. Moreover, the perivenous region of the liver lobule becomes even more oxygen deficient as a result of ethanol consumption. Synthesis of ATP in the perivenous region of the lobule may be depressed in the chronic ethanol consumer due to decreases in both mitochondrial and glycolytic activities. In this study the effects of hypoxia on hepatic ATP levels derived from synthesis by both oxidative phosphorylation and the glycolytic mechanisms were investigated. METHODS: Rats were pair-fed liquid diets containing 36% of calories as ethanol or an isocaloric control diet. The contributions of glycolysis and mitochondria to ATP production were assessed employing oligomycin, an inhibitor of oxidative phosphorylation. In order to localize the ethanol-elicited lesion in the glycolytic pathway, the metabolism of [3-(3)H] D-glucose was followed in hepatocytes from ethanol-fed and control animals. RESULTS: Under both hypoxic and normoxic conditions ATP losses were due to decreases in both glycolytic and mitochondrial ATP production. The rate of production of tritiated water from [3-(3)H] D-glucose was significantly decreased in hepatocytes from ethanol-fed animals, which indicates there is an ethanol-elicited lesion in glycolysis between glucose and glyceraldehyde-3-phosphate.
AIMS: The synthesis of ATP in the liver of the chronic ethanol consumer is suppressed, particularly if the tissue becomes hypoxic. Moreover, the perivenous region of the liver lobule becomes even more oxygen deficient as a result of ethanol consumption. Synthesis of ATP in the perivenous region of the lobule may be depressed in the chronic ethanol consumer due to decreases in both mitochondrial and glycolytic activities. In this study the effects of hypoxia on hepatic ATP levels derived from synthesis by both oxidative phosphorylation and the glycolytic mechanisms were investigated. METHODS:Rats were pair-fed liquid diets containing 36% of calories as ethanol or an isocaloric control diet. The contributions of glycolysis and mitochondria to ATP production were assessed employing oligomycin, an inhibitor of oxidative phosphorylation. In order to localize the ethanol-elicited lesion in the glycolytic pathway, the metabolism of [3-(3)H] D-glucose was followed in hepatocytes from ethanol-fed and control animals. RESULTS: Under both hypoxic and normoxic conditions ATP losses were due to decreases in both glycolytic and mitochondrial ATP production. The rate of production of tritiated water from [3-(3)H] D-glucose was significantly decreased in hepatocytes from ethanol-fed animals, which indicates there is an ethanol-elicited lesion in glycolysis between glucose and glyceraldehyde-3-phosphate.
Authors: Tung Ming Leung; Yongke Lu; Wei Yan; Jose A Morón-Concepción; Stephen C Ward; Xiaodong Ge; Laura Conde de la Rosa; Natalia Nieto Journal: Hepatology Date: 2012-05 Impact factor: 17.425
Authors: Uduak S Udoh; Telisha M Swain; Ashley N Filiano; Karen L Gamble; Martin E Young; Shannon M Bailey Journal: Am J Physiol Gastrointest Liver Physiol Date: 2015-04-09 Impact factor: 4.052
Authors: Blake R Zelickson; Gloria A Benavides; Michelle S Johnson; Balu K Chacko; Aparna Venkatraman; Aimee Landar; Angela M Betancourt; Shannon M Bailey; Victor M Darley-Usmar Journal: Biochim Biophys Acta Date: 2011-09-24
Authors: Vinood B Patel; Christina H Spencer; Tracey A Young; Mark O Lively; Carol C Cunningham Journal: Free Radic Biol Med Date: 2007-08-16 Impact factor: 7.376