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The Plant Defense Signal Salicylic Acid Activates the RpfB-Dependent Quorum Sensing Signal Turnover via Altering the Culture and Cytoplasmic pH in the Phytopathogen Xanthomonas campestris

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SA is a phenolic acid plant hormone that plays an essential role in plant defenses against biotrophic and semibiotrophic pathogens. Substantial progress has been made in understanding the pivotal role… Click to show full abstract

SA is a phenolic acid plant hormone that plays an essential role in plant defenses against biotrophic and semibiotrophic pathogens. Substantial progress has been made in understanding the pivotal role of SA in plant immunity. ABSTRACT Plant colonization by phytopathogens is a very complex process in which numerous factors are involved. Upon infection by phytopathogens, plants produce salicylic acid (SA) that triggers gene expression within the plant to counter the invading pathogens. The present study demonstrated that SA signal also directly acts on the quorum-sensing (QS) system of the invading pathogen Xanthomonas campestris pv. campestris to affect its virulence by inducing turnover of the diffusible signaling factor (DSF) family QS signal. First, Xanthomonas campestris pv. campestris infection induces SA biosynthesis in the cabbage host plant. SA cannot be degraded by Xanthomonas campestris pv. campestris during culturing. Exogenous addition of SA or endogenous production of SA induces DSF signal turnover during late growth phase of Xanthomonas campestris pv. campestris in XYS medium that mimics plant vascular environments. Further, the DSF turnover gene rpfB is required for SA induction of DSF turnover. However, SA does not affect the expression of rpfB and DSF biosynthesis gene rpfF at the transcriptional level. SA induction of DSF turnover only occurs under acidic conditions in XYS medium. Furthermore, addition of SA to XYS medium significantly increased both culture and cytoplasmic pH. Increased cytoplasmic pH induced DSF turnover in a rpfB-dependent manner. In vitro RpfB-dependent DSF turnover activity increased when pH increased from 6 to 8. SA exposure did not affect the RpfB-dependent DSF turnover in vitro. Finally, SA-treated Xanthomonas campestris pv. campestris strain exhibited enhanced virulence when inoculated on cabbage. These results provide new insight into the roles of SA in host plants and the molecular interactions between Xanthomonas campestris pv. campestris and cruciferous plants. IMPORTANCE SA is a phenolic acid plant hormone that plays an essential role in plant defenses against biotrophic and semibiotrophic pathogens. Substantial progress has been made in understanding the pivotal role of SA in plant immunity. However, the roles of SA in inhibiting invading plant pathogens and the associated underlying molecular mechanisms are not yet fully understood. The present study demonstrated that the SA signal directly acts on the quorum-sensing (QS) system of the invading pathogen Xanthomonas campestris pv. campestris to affect its virulence by inducing turnover of the DSF family QS signal via a pH-dependent manner. These findings provide new insight into the roles of SA and expand our understanding of the molecular interactions between pathogens and plant hosts.

Keywords: campestris campestris; rpfb dependent; dsf turnover; xanthomonas campestris; plant; turnover

Journal Title: mBio
Year Published: 2022

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