Identification of a 51-kilodalton polypeptide fatty acyl chain acceptor in soluble extracts from mouse cardiac tissue.

We have identified a protein in the soluble fraction from mouse cardiac tissue extracts which is rapidly and selectively acylated by myristyl CoA. This protein was partially purified by anion-exchange chromatography and gel filtration, and the acylation reaction was measured using [3H]myristyl CoA as substrate, followed by sodium dodecyl sulfate - polyacrylamide gel electrophoresis to resolve [3H]fatty acyl polypeptides. The [3H]acyl protein migrated as heterogeneous bands corresponding to relative masses (MrS) of 42,000-51,000 under nonreducing conditions or as a single polypeptide of Mr 51,000 in the presence of reducing agents. Fatty acyl chain incorporation into protein was very rapid and already maximum after 30 s of incubation, whereas no acylation was detected using heat-denatured samples or when the reaction was stopped immediately after initiation. Only the acyl CoA served as fatty acyl chain donor. No incorporation into protein occurred when myristyl CoA was substituted by myristic acid, ATP, and CoA. A time-dependent reduction in the level of [3H]fatty acyl polypeptide was observed upon addition of excess unlabeled myristyl CoA, indicating the ability of the labeled acyl moiety of the protein to turn over during incubation. The saturated C10:0, C14:0, and C16:0 acyl CoAs were more effective to chase the label from the [3H]acyl polypeptide than the C18:0 and C18:1 acyl CoAs. These results provide evidence for a 51-kilodalton polypeptide which serves as an acceptor for fatty acyl chains and could represent an important intermediate in fatty acyl chain transfer reactions in cardiac tissue.