Biosynthesis of the Class III Lantipeptide Catenulipeptin

Lantipeptides are ribosomally synthesized and posttranslationally modified peptides containing lanthionine and/or labionin structures. In this study, a novel class III lantipeptide termed catenulipeptin was discovered from Catenulispora acidiphila DSM 44928, and its biosynthesis was reconstituted in vitro. The multifunctional enzyme AciKC catalyzes both dehydration and cyclization of its peptide substrate AciA and installs two labionin structures in catenulipeptin. AciKC shows promiscuity with respect to cosubstrate and accepts all four NTPs. The C-terminal domain of AciKC is responsible for the labionin formation in catenulipeptin. The cyclase activity of AciKC requires the leader peptide of AciA substrate but does not require ATP or Zn(2+). Mutagenesis studies suggest that the labionin cyclization may proceed in a C-to-N-terminal direction. Catenulipeptin partially restores aerial hyphae growth when applied to surfactin-treated Streptomyces coelicolor.