A two-step regulatory circuit involving Spo0A-AbrB activates mersacidin biosynthesis in Bacillus subtilis.

Due to intramolecular ring structures, the ribosomally produced and post-translationally modified peptide mersacidin shows antimicrobial properties comparable to those of vancomycin without exhibiting cross-resistance. Although the principles of mersacidin biosynthesis are known, there is no information on the molecular control processes for the initial stimulation of mersacidin bioproduction. By using Bacillus subtilis for heterologous biosynthesis, a considerable amount of mersacidin could be produced without the mersacidin-specific immune system and the mersacidin-activating secretory protease. By using the established laboratory strain Bacillus subtilis 168 and strain 3NA, which is used for high cell density fermentation processes, in combination with the construction of reporter strains to determine the promoter strengths within the mersacidin core gene cluster, the molecular regulatory circuit of Spo0A, a master regulator of cell differentiation including sporulation initiation, and the global transcriptional regulator AbrB, which is involved in cell adaptation processes in the transient growth phase, was identified to control the initial stimulation of the mersacidin core gene cluster. In a second downstream regulatory step, the activator MrsR1, encoded in the core gene cluster, acts as a stimulatory element for mersacidin biosynthesis. These findings are important to understand the mechanisms linking environmental conditions and microbial responses with respect to the bioproduction of bioactive metabolites including antimicrobials such as mersacidin. This information will also support the construction of production strains for bioactive metabolites with antimicrobial properties.