Synthesis of fatty acids from malonyl-CoA and NADPH by pigeon liver fatty acid synthetase

Abstract

Pigeon liver fatty acid synthetase has been found to catalyze the formation of palmitic acid from malonyl-CoA and NADPH in the absence of acetyl-CoA. Radio-chemical and spectral assays show that the activity of the complex in the absence of acetyl-CoA is about 25–30% of the activity in the presence of this compound. Initial velocities were determined for a series of reactions in which the malonyl-CoA concentration was varied over a range of 5–200 μ m at a fixed NADPH concentration of 100μ m and vice versa. No inhibitory effects of one substrate over the other were found. However, when the synthesis of fatty acids was studied in the presence of acetyl-CoA, a significant inhibitory effect of malonyl-CoA was observed. It has also been shown that the fatty acid synthetase synthesizes triacetic lactone from malonyl-CoA in the absence of NADPH and acetyl-CoA. No evidence was obtained for the direct decarboxylation of malonyl-CoA to acetyl-CoA in this reaction. Hence it is proposed that decarboxylation of the malonyl moiety bound covalently to 4′-phosphopantetheine occurs to yield acetyl-4′-phosphopantetheine. Further, it is proposed that the acetyl moiety of the latter compound is transferred to the cysteine site of the enzyme complex and that fatty acid synthesis proceeds in the presence of NADPH as proposed by Phillips et al. [ Arch. Biochem. Biophys. 138, 380 (1970) ]. In the absence of NADPH triacetic lactone is formed.