Inactivation of dioldehydrase in the presence of a coenzyme-B12 analog

We have previously shown that a coenzyme-B₁₂ analog, adenosylcobalamin (AdoCbl)-(e-OH), with the e-propionamide group converted to a carboxylic acid, serves as a poor coenzyme for dioldehydrase. During the course of the catalytic process, the enzyme AdoCbl-(e-OH) complex becomes catalytically inactive (T. Toraya, E. Krodel, A. S. Mildvan, and R. H. Abeles, 1979, Biochemistry18, 417–426). We have now examined the mechanism of this inactivation further. Inactivation only occurs in the presence of substrate. The dioldehydrase coenzyme analog complex is stable in the absence of substrate. In the inactivated complex, the coenzyme analog was stoichiometrically converted to a cob(II)alamin species. The cob-(II)alamin formed remained irreversibly bound at the active site of the enzyme and resisted oxidation by O₂ even in the presence of CN^?. Stoichiometric formation of 5′-deoxyadenosine from the 5′-deoxy-5′-adenosyl moiety of the coenzyme analog was demonstrated with 8-¹⁴C]-AdoCbl(e-OH). This nucleoside also remained tightly bound to the enzyme and was not exchangeable with free 5′-deoxyadenosine nor was it removed by Sephadex chromatography. The rate of inactivation showed no deuterium isotope effect when the inactivation occurred in the presence of l,2-propanediol-l-d₂. The inactivated complex was resolved by acid ammonium sulfate treatment into the intact apoenzyme and the hydroxocobalamin derivative. This indicates that the apoenzyme itself is not modified in the inactivation process. These results suggest that the inactivation reaction occurs from one of the intermediates in the normal catalysis. We propose that the inactivation is due to incorrect binding of the modified coenzyme in an intermediate of the catalytic process. This incorrect binding leads to the loss of the substrate radical, and consequently, to loss of catalytic activity.