A mechanism for ethanol-induced damage to liver mitochondrial structure and function |
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Authors: | Roger J. Schilling Ronald C. Reitz |
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Affiliation: | Department of Biochemistry, School of Medicine, University of Nevada, Reno, NV 89557 U.S.A. |
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Abstract: | Mitochondria isolated from rats chronically fed ethanol demonstrated a marked inability to produce energy. The respiratory control ratio, the ADP/O ratio and state 3 respiration rates were all decreased. Coupled with other data, a progression of ethanol-induced changes is proposed with site I being altered prior to site II. Quantitation of mitochondrial cytochromes revealed decreases in cytochromes and and an increase in . Evaluation of respiration activity in relation to temperature showed ethanol-induced changes in the transition temperature () which may have been related to changes in the lipid composition of the inner membrane. Mitochondrial membranes were separated, and analysis of fatty acids and phospholipids was performed. Various fatty acids were altered in both membranes; however, the outer membrane was altered more severely. A decrease in the arachidonate : linoleate ratio was observed only in the outer membrane; however, there was no ethanol-induced change in degree of unsaturation in either membrane. Phospholipid quantitation showed a reduction of total lipid phosphorous/mg protein in both membrane fractions; however, the inner membrane was most affected. Cardiolipin was the only phospholipid in this membrane which remained unaltered. The evidence indicates that the mechanism for ethanol-induced damage to the liver mitochondrion involves lipid compositional changes as well as changes in cytochromes and possibly other proteins. |
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Keywords: | Ethanol-induced damage Mitochondrial structure Respiratory control ratio Cytochrome Lipid composition (Liver) |
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