Substrate inhibition of pigeon liver fatty acid synthetase and optimum assay conditions for over-all synthetase activity

Abstract

The effects of the substrates acetyl-CoA, malonyl-CoA, and NADPH on the activity of pigeon liver fatty acid synthetase have been studied over a wide range of concentrations. Double-reciprocal coordinate plots for each of the substrates have been found to be linear at low concentrations. At higher concentrations two of the substrates, acetyl-CoA and malonyl-CoA, inhibit the rate of fatty acid synthesis. This double substrate inhibition is apparently of a competitive type. Inhibition by acetyl-CoA is very strong as compared to that by malonyl-CoA. At a 4:1 ratio of acetyl- to malonyl-CoA, inhibition is about 75%, whereas at a 4:1 ratio of malonyl- to acetyl-CoA fatty acid synthesis proceeds at the maximum rate. These results are consistent with the hypothesis that a competition between acetyl-CoA and malonyl-CoA occurs for the occupany of the 4′- phosphopantetheine site, a prosthetic group of the synthetase complex, and possibly also for the hydroxyl binding site (or sites). The relative concentrations of these substrates and the binding constants for each then determine whether these sites are occupied by acetyl or malonyl groups, and whether inhibition of fatty acid synthesis occurs. Based on our results, assays for pigeon liver fatty acid synthetase activity should be conducted at substrate concentrations of 15 μ m, 60 μ m, and 100 μ m for acetyl-CoA, malonyl-CoA, and NADPH, respectively.