Purification, characterization, and directed evolution study of a vitamin D3 hydroxylase from Pseudonocardia autotrophica

Vitamin D₃ (VD₃) is a fat-soluble prohormone that plays a crucial role in bone metabolism, immunity, and control of cell proliferation and cell differentiation in mammals. The actinomycete Pseudonocardia autotrophica is capable of bioconversion of VD₃ into its physiologically active forms, namely, 25(OH)VD₃ or 1α,25(OH)₂VD₃. In this study, we isolated and characterized Vdh (vitamin D₃ hydroxylase), which hydroxylates VD₃ from P. autotrophica NBRC 12743. The vdh gene encodes a protein containing 403 amino acids with a molecular weight of 44,368 Da. This hydroxylase was found to be homologous with the P450 belonging to CYP107 family. Vdh had the same ratio of the V_max values for VD₃ 25-hydroxylation and 25(OH)VD₃ 1α-hydroxylation, while other enzymes showed preferential regio-specific hydroxylation on VD₃. We characterized a collection of Vdh mutants obtained by random mutagenesis and obtained a Vdh-K1 mutant by the combination of four amino acid substitutions. Vdh-K1 showed one-order higher VD₃ 25-hydroxylase activity than the wild-type enzyme. Biotransformation of VD₃ into 25(OH)VD₃ was successfully accomplished with a Vdh-expressed recombinant strain of actinobacterium Rhodococcus erythropolis. Vdh may be a useful enzyme for the production of physiologically active forms of VD₃ by a single cytochrome P450.