Cross-regulation between RpfG and HtsHs to regulate antibiotic biosynthesis in Lysobacter

Abstract

AbstractBacterial two-component systems (TCSs) sense and respond to environmental changes and modulate downstream gene expression. However, the mechanism of cross-talk between multiple TCSs is unclear. In this study, we report a previously uncharacterized mechanism by which the TCS protein RpfG interacts with hybrid two-component system (HyTCS) proteins HtsH1, HtsH2 and HtsH3 to regulate antibiotic biosynthesis in Lysobacter. RpfG, a phosphodiesterase (PDE), can degrade c-di-GMP to 5’-pGpG and can regulate antibiotic heat-stable antifungal factor (HSAF) biosynthesis in a PDE- independent manner. Thus, we wondered whether RpfG regulate HSAF biosynthesis through interactions with other factors. Subsequently, we demonstrated that RpfG interacts with three HyTCS proteins (HtsH1, HtsH2 and HtsH3), that can inhibit the PDE enzymatic activity of RpfG. Importantly, deletion of htsH1, htsH2 and htsH3 resulted in significantly decreased HSAF production, and we showed that HtsH1, HtsH2 and HtsH3 depend on their phosphorylation activity to directly regulate HSAF biosynthesis gene expression. Our results reveal that RpfG does not depend on PDE activity to regulate HSAF biosynthesis, rather it interacts with HtsH1, HtsH2 and HtsH3 to do so, a regulatory mechanism that may be a conserved paradigm in Lysobacter and Xanthomonas.