Structure elucidation, biosynthesis, total synthesis and antibacterial in-vivo efficacy of myxobacterial Corramycin

Herein, we describe the myxobacterial natural product Corramycin (1) isolated from Corallococcus coralloides (C. coralloides). Corramycin is a linear peptide containing an unprecedented (2R,3S) N-methyl-β-hydroxy histidine moiety and exhibiting anti-Gram-negative activity against Escherichia coli. Moreover, we describe the Corramycin biosynthetic gene cluster (BGC) and propose a biosynthesis model involving a 12-modular non-ribosomal peptide synthetase (NRPS)/polyketide synthase (PKS). Bioinformatic analysis of the BGC combined with the development of a total synthesis route allowed for the elucidation of the molecule’s absolute configuration. Furthermore, we show that the uptake of Corramycin in E. coli depends on two transporter systems, SbmA and YejABEF. Importantly, intravenous administration of 30 mg kg 1 of Corramycin in an E. coli mouse infection model resulted in significantly reduced colony forming units (CFU) and in 60 % survival of animals, with no toxic effects observed in vitro or in vivo. Corramycin is thus an intriguing innovative starting point to develop a potent antibacterial drug against hospital acquired infections