SYNTHESIS OF LONG-CHAIN ACYL-ENZYME THIOESTERS BY MODIFIED FATTY-ACID SYNTHETASES AND THEIR HYDROLYSIS BY A MAMMARY-GLAND THIOESTERASE

The fatty acid synthetase multienzyme from lactating rat mammary gland was modified either by removal of the two thioesterase I domains with trypsin or by inhibiting the thioesterase I activity with phenylmethanesulfonyl fluoride. The modified multienzymes are able to convert acetyl-CoA, malonyl-CoA, and NADPH to long chain acyl moieties (C16C22), which are covalently bound to the enzyme through thioester linkage, but they are unable to release the acyl groups as free fatty acids. A single enzyme-bound, long chain acyl thioester is formed by each molecule of modified multienzyme. Kinetic studies showed that the modified multienzymes rapidly elongate the acetyl primer moiety to a C16 thioester and that further elongation to C18, C20, and C22 is progressively slower. Thioesterase II, a mammary gland enzyme which is not part of the fatty acid synthetase multienzyme, can release the acyl moiety from its thioester linkage to either modified multienzyme. Kinetic data are consistent with the formation of an enzyme-substrate complex between thioesterase II and the acylated modified multienzymes. The present study demonstrates that the ability of thioesterase II to modify the product specificity of normal fatty acid synthetase is most likely attributable to the capacity of thioesterase II for hydrolysis of acyl moieties from thioester linkage to the multienzyme. © 1979.