Chemoenzymatic Total Synthesis of Deoxy‐, epi‐, and Podophyllotoxin and a Biocatalytic Kinetic Resolution of Dibenzylbutyrolactones

Podophyllotoxin is probably the most prominent representative of lignan natural products. Deoxy‐, epi‐, and podophyllotoxin, which are all precursors to frequently used chemotherapeutic agents, were prepared by a stereodivergent biotransformation and a biocatalytic kinetic resolution of the corresponding dibenzylbutyrolactones with the same 2‐oxoglutarate‐dependent dioxygenase. The reaction can be conducted on 2 g scale, and the enzyme allows tailoring of the initial, “natural” structure and thus transforms various non‐natural derivatives. Depending on the substitution pattern, the enzyme performs an oxidative C−C bond formation by C−H activation or hydroxylation at the benzylic position prone to ring closure. Taming iron: Podophyllotoxin and congeners were prepared by chemoenzymatic total synthesis employing the 2‐oxoglutarate‐dependent iron enzyme from Podophyllum hexandrum. The reaction outcome was changed from an enantiodivergent to a kinetic resolution process by substrate engineering. Modifications of the substrate allowed the kinetic resolution of dibenzylbutyrolactones.