Orchestration of Staphylococcus aureus EV biogenesis by nutrient availability through quorum sensing

The release of extracellular vesicles (EV) is a universally conserved process. Bacterial EVs package diverse cargo, including proteins and nucleic acids, and influence bacterial adaptation and survival as well as host-pathogen interactions. Currently, our understanding of the mechanisms underlying global principles in Gram-positive EV biogenesis and release is limited, partly due to labor-intensive vesicle isolation and assessment methods. Here, we describe a moderately high-throughput approach to analyze the Nebraska Transposon Mutant Library to identify genetic determinants of EV production in S. aureus . We show that the agr quorum sensing system dictates EV production in response to nutrient availability, likely through communication with the adaptive stress response. This study demonstrates the contribution of nutritional stress to vesiculogenesis and supports a conserved communication strategy that allows metabolic state to influence EV production.