Biosynthesis-Guided Discovery of Enteropeptins, Unusual Sactipeptides Containing an N-Methylornithine

The combination of next-generation DNA sequencing technologies and bioinformatics have revitalized natural product discovery. Using a new bioinformatic search strategy, we recently identified ~600 gene clusters in animal microbiomes that code for ribosomal peptide natural products synthesized by radical S-adenosylmethionine enzymes. These grouped into 16 subfamilies and pointed to an unexplored microbiome biosynthetic landscape. Herein, we report the structure, biosynthesis, and function of one of these natural product groups, that we term enteropeptins, from the gut microbe Enterococcus cecorum. We elucidate three novel reactions, each catalyzed by a different family of metalloenzymes, in the biosynthesis of enteropeptins. Among these, we characterize the founding member of a widespread superfamily of Fe-S-containing methyltransferases, which, together with a di-Mn-dependent arginase, installs an N-methylornithine in the peptide sequence. Biological assays with the mature product revealed bacteriostatic activity only against the producing strain, extending an emerging theme of fratricidal or self-inhibitory metabolites in microbiome firmicutes.