Unusual Mechanism of Oxygen Atom Transfer and Product Rearrangement in the Catalytic Reaction of 2-Methyl-3-hydroxypyridine-5-carboxylic Acid Oxygenase

Abstract

The oxygenation reaction of 2-methyl-3-hydroxypyridine-5-carboxylic acid (MHPC) oxygenase with the substrate, MHPC, was investigated. Two oxygenated flavin intermediates C(4a)-hydroperoxy flavin and C(4a)-hydroxy flavin were found, implying that the enzyme functions similarly to flavoprotein hydroxylases. This finding is supported by the results of independent oxygen-18 tracer experiments, which showed that one atom of oxygen from ¹⁸O₂ and one atom of oxygen from H₂¹⁸O are incorporated in the product. MHPC oxygenase normally catalyzes both the oxygenation and the hydrolytic ring opening of the pyridine ring of MHPC to yield the acyclic compound, α-(N-acetylaminomethylene)succinic acid. Using 5-hydroxynicotinic acid (5HN), which has no 2-methyl group, we tested whether the hydrolytic reaction was due to the presence of the 2-methyl group on MHPC (that prevented rearomatization of the initial product) or to the specific properties of MHPC oxygenase. Product analysis of the enzymatic reaction of 5HN and MHPC oxygenase shows that the enzyme catalyzes the hydroxylation and subsequent hydrolysis of the hydroxylated substrate to yield an acyclic product. The investigation of the oxygenation reaction demonstrates that the enzyme uses the same mechanism to catalyze the 5HN reaction as it does in the MHPC reaction.