PURPOSE: Fatty acid ethyl esters (FAEEs), esterification products of ethanol and fatty acids, have been implicated as mediators of ethanol-induced organ damage. It has been shown that FAEE synthase, the enzyme responsible for the formation of FAEE, is present selectively in the organs commonly damaged by ethanol abuse. Recently, we have made the observation that FAEEs are also present in the serum after ethanol ingestion. The current study was performed to determine whether cellular elements of the blood and/or plasma are capable of synthesizing FAEEs from fatty acids and ethanol. MATERIALS AND METHODS: Heparinized blood samples were collected from 10 healthy volunteers, and the red blood cells, platelets, plasma, and several white blood cell populations were assayed for FAEE synthase activity. Blood samples from control subjects and individuals admitted to an alcoholic detoxification unit at a local hospital were also assayed for FAEE synthase activity. RESULTS: We observed that the FAEE synthase activity is present in whole blood, primarily within white blood cells. Fractionation of the white blood cells revealed that the lymphocyte-monocyte fraction isolated using Ficoll-hypaque contained approximately 3.5-fold higher activity than the granulocyte fraction. The cell type that contained the highest FAEE synthase activity (1220 pmol/hr/10(6) cells) was the natural killer (NK) cell population. B cells contained approximately 40% of the enzyme activity found in NK cells, and the B-cell activity was slightly greater than that found in CD4+ and CD8+ T cells. Having shown that FAEE synthase exists in a blood cell, we subsequently demonstrated that alcoholic individuals have approximately half the white blood cell FAEE synthase activity of that found in normal controls. We also demonstrated that white blood cell FAEE synthase could be induced nearly 2-fold upon ingestion of 2 oz of scotch whiskey for 6 days. The enzyme activity returned to baseline levels despite ingestion of 2 oz of scotch whiskey/day for 3 additional days. CONCLUSIONS: These data indicate that ethanol ingestion results in increased FAEE production, particularly by NK cells. FAEE synthesis after ethanol ingestion may explain the presence of FAEE in the serum. The lower enzyme activity observed in white blood cells of alcoholics from a detoxification center may be the result of years of ethanol abuse or it may be that alcoholics congenitally have low levels of FAEE synthase. If the latter is true, this finding may explain in part the genetic predisposition of many alcoholic individuals to ethanol abuse.
PURPOSE:Fatty acid ethyl esters (FAEEs), esterification products of ethanol and fatty acids, have been implicated as mediators of ethanol-induced organ damage. It has been shown that FAEE synthase, the enzyme responsible for the formation of FAEE, is present selectively in the organs commonly damaged by ethanol abuse. Recently, we have made the observation that FAEEs are also present in the serum after ethanol ingestion. The current study was performed to determine whether cellular elements of the blood and/or plasma are capable of synthesizing FAEEs from fatty acids and ethanol. MATERIALS AND METHODS: Heparinized blood samples were collected from 10 healthy volunteers, and the red blood cells, platelets, plasma, and several white blood cell populations were assayed for FAEE synthase activity. Blood samples from control subjects and individuals admitted to an alcoholic detoxification unit at a local hospital were also assayed for FAEE synthase activity. RESULTS: We observed that the FAEE synthase activity is present in whole blood, primarily within white blood cells. Fractionation of the white blood cells revealed that the lymphocyte-monocyte fraction isolated using Ficoll-hypaque contained approximately 3.5-fold higher activity than the granulocyte fraction. The cell type that contained the highest FAEE synthase activity (1220 pmol/hr/10(6) cells) was the natural killer (NK) cell population. B cells contained approximately 40% of the enzyme activity found in NK cells, and the B-cell activity was slightly greater than that found in CD4+ and CD8+ T cells. Having shown that FAEE synthase exists in a blood cell, we subsequently demonstrated that alcoholic individuals have approximately half the white blood cell FAEE synthase activity of that found in normal controls. We also demonstrated that white blood cell FAEE synthase could be induced nearly 2-fold upon ingestion of 2 oz of scotch whiskey for 6 days. The enzyme activity returned to baseline levels despite ingestion of 2 oz of scotch whiskey/day for 3 additional days. CONCLUSIONS: These data indicate that ethanol ingestion results in increased FAEE production, particularly by NK cells. FAEE synthesis after ethanol ingestion may explain the presence of FAEE in the serum. The lower enzyme activity observed in white blood cells of alcoholics from a detoxification center may be the result of years of ethanol abuse or it may be that alcoholics congenitally have low levels of FAEE synthase. If the latter is true, this finding may explain in part the genetic predisposition of many alcoholic individuals to ethanol abuse.