Ethanol-induced changes in lipid composition of Escherichia coli: Inhibition of saturated fatty acid synthesis in vitro

Abstract

Growth of Escherichia coli in the presence of ethanol results in the synthesis of lipids containing elevated proportions of unsaturated fatty acids. Previous in vivo experiments indicated that the ethanol-induced changes in fatty acid composition result from a preferential inhibition of saturated fatty acid synthesis. In this study, the inhibition of saturated fatty acid synthesis by ethanol was confirmed in vitro. This inhibition was not membrane mediated and resulted from a direct action of ethanol on the soluble enzymes of fatty acid synthesis. The addition of ethanol resulted in a decrease in chain length of both saturated and unsaturated acyl products in vitro. Experiments with enzymes prepared from several fatty acid synthesis mutants of E. coli indicate that β-hydroxydecanoyl-acyl carrier protein dehydrase is not the site of the ethanol inhibition of saturated fatty acid synthesis. The two condensing enzymes are the probable sites for inhibition by ethanol.