Characterization of Xanthine Dehydrogenase from the Anaerobic Bacterium Veillonella atypica and Identification of a Molybdopterin‐Cytosine‐Dinucleotide‐Containing Molybdenum Cofactor

Abstract

The molybdenum-containing iron-sulfur flavoprotein xanthine dehydrogenase from the anaerobic bacterium Veillonella atypica has been purified approximately 800-fold with a yield of approximately 40% and a specific activity of approximately 70 μmol ferricyanide reduced · min⁻¹· mg protein⁻¹ with xanthine as electron donor, which corresponds to approximately 30 μmol xanthine oxidized · min⁻¹· mg protein⁻¹ with methylene blue as electron acceptor. The 129-kDa enzyme was a non-covalent heterotrimer with large (82.4 kDa), medium (28.5 kDa) and small (18.4 kDa) subunits. The N-termini of the small and medium polypeptides of V. atypica xanthine dehydrogenase and the corresponding domains of eukaryotic xanthine dehydrogenases were similar, whereas the N-terminus of the large polypeptide was unrelated to eukaryotic xanthine dehydrogenases. The enzyme contained 0.86 atoms Mo, 1.75 atoms Fe, 1.61 atoms acid-labile sulfur and 0.68 molecules FAD/molecule, which corresponds to a 1:2.0:1.9:0.8 molar ratio. Acid hydrolysis revealed 0.95 mol CMP and 0.80 mol AMP/mol xanthine dehydrogenase. After treatment of the enzyme with iodoacetamide, di(carboxamidomethyl)molybdopterin cytosine dinucleotide was identified, which indicates that molybdopterin cytosine dinucleotide is the organic portion of the V. atypica xanthine dehydrogenase molybdenum cofactor. The enzyme and its molybdenum cofactor occurred in a 1:1 molar ratio. Xanthine dehydrogenases from eukaryotic sources are characterized by a domain structure and the presence of duplicate copies of two types of [2Fe-2S] clusters. In contrast, the xanthine dehydrogenase from V. atypica had a heterotrimeric subunit structure and a single [2Fe-2S] cluster. In addition, the enzyme indicates the presence of a molybdopterin dinucleotide as a constituent of a xanthine dehydrogenase molybdenum cofactor.