Anil, A.; Braza, R. E.; Liu, B.; Altouma, V.; Adedeji, C.; Welling, A.; Ellison, A. L.; Check, M. H.; Irnov, I.; Prescott, R.; Torres, V. J.; Davis, K. M.

Virulence factors are required for bacterial pathogens to establish infection, however, their expression can be energetically costly, and must be tightly controlled to avoid fitness costs. Expression can be controlled at specific stages during infection (temporal regulation) or expressed by small subsets of the bacterial population (spatial regulation). There has been a great deal of interest in developing virulence factor-targeting strategies to combat Staphylococcus aureus infection, but the spatiotemporal regulation of the virulence factor master regulatory systems (Agr, Sae) has not been explored during kidney abscess formation. This information is critical for the design of therapeutics targeting these pathways. Here, we utilized a fluorescent transcriptional reporter approach to visualize dynamics in Agr and Sae activity during abscess formation in the mouse kidney. We categorized kidney abscess formation into four stages, then defined spatiotemporal gene expression. Agr signalling appeared inactive in the kidney; consistent with this, agr mutant abscesses fully developed. In contrast, we observed heterogeneous (ON/OFF) activity of Sae at early stages where bacteria were found intracellularly within neutrophils. Sae activity increased as abscesses developed, and heterogeneity in spatial patterning was observed, but patterns varied between abscesses suggesting distinct microenvironments within individual abscesses. Consistent with a requirement for Sae activity during abscess development, the sae mutant did not develop abscesses past early stages. These results have implications for the genes regulated by Agr and Sae, and suggest a requirement for Sae activity during kidney abscess development.