X Ma1, E Baraona, B G Goozner, C S Lieber. 1. Alcohol Research and Treatment Center, VA Medical Center, Bronx, Mount Sinai School of Medicine, New York 10468, USA.
Abstract
PURPOSE: Women appear to be more vulnerable to developing alcoholic liver disease than men. In rats, we previously found that the response of certain pathways of fatty acid metabolism to alcohol feeding was less efficient in females than in males, resulting in striking accumulation of fatty acids in the liver of the female rats. We sought to determine whether similar differences occurred in humans. PATIENTS AND METHODS: Urinary excretion of medium chain (C6-C10) dicarboxylic acids (final products of fatty acid omega-oxidation) was determined in 40 recently drinking alcoholic subjects (24 men and 16 women) and 21 nonalcoholic subjects (12 men and nine women). Sebacic (C10), suberic (C8), and adipic (C6) acids were measured in urine by gas chromatography/mass spectrometry, and their excretion was expressed per mg of creatinine. RESULTS: In nonalcoholic subjects, there was no gender difference in dicarboxylic aciduria. By contrast, alcoholic men (but not alcoholic women) developed dicarboxylic hyperaciduria. Alcoholic men had a marked increase in adipic acid excretion and in the adipic/sebacic (C6/C10) ratio (an index of peroxisomal beta-oxidation), whereas the values in alcoholic women did not differ from those in nonalcoholic women. CONCLUSIONS: The lack of response in alcoholic women could contribute to an aggravation of liver injury by promoting deleterious accumulation of fatty acids.
PURPOSE:Women appear to be more vulnerable to developing alcoholic liver disease than men. In rats, we previously found that the response of certain pathways of fatty acid metabolism to alcohol feeding was less efficient in females than in males, resulting in striking accumulation of fatty acids in the liver of the female rats. We sought to determine whether similar differences occurred in humans. PATIENTS AND METHODS: Urinary excretion of medium chain (C6-C10) dicarboxylic acids (final products of fatty acid omega-oxidation) was determined in 40 recently drinking alcoholic subjects (24 men and 16 women) and 21 nonalcoholic subjects (12 men and nine women). Sebacic (C10), suberic (C8), and adipic (C6) acids were measured in urine by gas chromatography/mass spectrometry, and their excretion was expressed per mg of creatinine. RESULTS: In nonalcoholic subjects, there was no gender difference in dicarboxylic aciduria. By contrast, alcoholic men (but not alcoholic women) developed dicarboxylic hyperaciduria. Alcoholic men had a marked increase in adipic acid excretion and in the adipic/sebacic (C6/C10) ratio (an index of peroxisomal beta-oxidation), whereas the values in alcoholic women did not differ from those in nonalcoholic women. CONCLUSIONS: The lack of response in alcoholic women could contribute to an aggravation of liver injury by promoting deleterious accumulation of fatty acids.
Authors: Soumen K Manna; Andrew D Patterson; Qian Yang; Kristopher W Krausz; Henghong Li; Jeffrey R Idle; Albert J Fornace; Frank J Gonzalez Journal: J Proteome Res Date: 2010-08-06 Impact factor: 4.466