Macrolactin A Is an Inhibitor of Protein Biosynthesis in Bacteria

Abstract

ABSTRACTThe macrolide antibiotic, macrolactin A (McA), has been known for its antimicrobial properties since the late 1980s, but the mechanism of its antibacterial activity is still unknown. In this study, we investigated the microbiological and molecular characteristics of McA antimicrobial activity. McA effect on bacteria was found to be both bacteriostatic and bactericidal, depending on species and strains. Regarding the mechanism of action of McA, the following important results were obtained: 1) usingin vivoandin vitrosystems, we showed that McA is an inhibitor of protein synthesis in bacteria; 2) the concentration of McA required to inhibit protein synthesis in theE. colicell-free model was found to be 50 times lower than the concentration required in theS. aureuscell-free model; 3) the toe-printing assay revealed that McA inhibits the first step of elongation stage of protein synthesis; 4) we identified single and multiple nucleotide polymorphisms in the gene encoding the translation elongation factor Tu (EF-Tu) by annotating the genomes of McA-resistantBacillus pumilusMcARand its parental strain. Molecular modeling showed that the McA molecule can form non-covalent bonds with amino acids at the interface of domains 1 and 2 of EF-Tu, characterized by a relatively high docking score. Overall, our study demonstrated that McA acts as an elfamycin-like antibiotic (targeting EF-Tu), addressing a substantial gap in our understanding of the mechanism of action of macrolactin A, a representative member of macrolides.