Macrophage-driven nutrient delivery to phagosomal Staphylococcus aureus supports bacterial growth.

Staphylococcus aureus is a notorious pathogen causing significant morbidity and mortality worldwide. The ability of S. aureus to survive and replicate within phagocytes such as macrophages represents an important facet of immune evasion and contributes to pathogenesis. The mechanisms by which S. aureus acquires nutrients within host cells to support growth remain poorly characterized. Here, we demonstrate that macrophages infected with S. aureus maintain their dynamic ruffling behavior and consume macromolecules from the extracellular milieu. To support the notion that fluid-phase uptake by macrophages can provide S. aureus with nutrients, we utilized the pharmacological inhibitors PIK-III and Dynasore to impair uptake of extracellular macromolecules. Inhibitor treatment also impaired S. aureus replication within macrophages. Finally, using a mutant of S. aureus that is defective in purine biosynthesis we show that intracellular growth is inhibited unless the macrophage culture medium is supplemented with the metabolite inosine monophosphate. This growth rescue can be impaired by inhibition of fluid-phase uptake. In summary, through consumption of the extracellular environment macrophages deliver nutrients to phagolysosomal S. aureus to promote bacterial growth.