Isolation of a carboxyphosphate intermediate and the locus of acetyl-CoA action in the pyruvate carboxylase reaction.

When chicken liver pyruvate carboxylase was incubated with either H14CO3- or gamma-[32P]ATP, a labeled carboxyphospho-enzyme intermediate could be isolated. The complex was catalytically competent, as determined by its subsequent ability to transfer either 14CO2 to pyruvate or 32P to ADP. While the carboxyphospho-enzyme complex was inherently unstable and the stoichiometry of the transfer was variable depending on experimental conditions, both the [14C]carboxyphospho-enzyme and the carboxy[32P]phospho-enzyme had similar half-lives. Acetyl-CoA was shown to be involved in the conversion of the carboxyphospho-enzyme complex to the more stable carboxybiotin-enzyme species, which was consistent with the effects of acetyl-CoA on isotope exchange reactions involving ATP. We were unable to detect the formation of a phosphorylated biotin derivative during the ATP cleavage reaction. In the presence of K+ and at pH 9.5, the acetyl-CoA-independent activity of chicken liver pyruvate carboxylase approached 2% of the acetyl-CoA-stimulated rate, which represents a 30-fold increase on previously reported activity for this enzyme.