Distinct among the enediyne antitumor antibiotics, the dynemicin subgroup is comprised of two discrete halves, an enediyne and an anthraquinone, but each is ultimately derived from the same linear β-hydroxyhexaene… Click to show full abstract
Distinct among the enediyne antitumor antibiotics, the dynemicin subgroup is comprised of two discrete halves, an enediyne and an anthraquinone, but each is ultimately derived from the same linear β-hydroxyhexaene precursor. The linkage of these two halves by an aryl C-N bond is examined here using a variety of experimental approaches. We demonstrate that this heterodimerization is specific for anthracenyl iodide as the corresponding bromo- and amino-substituted anthracenes do not support dynemicin biosynthesis. Furthermore, biochemical experiments and chemical model reactions support an SRN1 mechanism for the aryl C-N coupling in which electron transfer occurs to the iodoanthracene, followed by loss of an anthracenyl iodide and partition of the resulting aryl radical between C-N coupling and reduction by hydrogen abstraction. An enzyme pull-down experiment aiming to capture the protein(s) involved in the coupling reaction is described in which two proteins, Orf14 and Orf16, encoded by the dynemicin biosynthetic gene cluster, are specifically isolated. Deletion of orf14 from the genome abolished dynemicin production accompanied by a 3-fold increased accumulation of the iodoanthracene coupling partner, indicating the plausible involvement of this protein in the heterodimerization process. On the other hand, the deletion of orf16 only reduced dynemicin production to 55%, implying a noncatalytic, auxiliary role of the protein. Structural comparisons using AlphaFold imply key similarities between Orf14 and X-ray crystal structures of several proteins from enediyne BGCs believed to bind hydrophobic polyene or enediyne motifs suggest Orf14 templates aryl C-N bond formation during the central heterodimerization in dynemicin biosynthesis.
               
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