Salmonella is a common causative agent of infectious intestinal and systemic disease and has been extensively studied for several decades. Yet, much of Salmonella pathogenicity remains a mystery due in part to the highly complex virulence and adaptation strategies at the pathogen's disposal. One of the more influential tools within the field, an attenuated aroA-deficient Salmonella strain, has been used for many years to probe the host immune response that would otherwise be impossible with a fully virulent strain. Now, new work by Rooke et al. (J. L. Rooke, E. C. A. Goodall, K. Pullela, R. Da Costa, et al., mBio 15:e03319-23, 2024, https://doi.org/10.1128/mbio.03319-23) utilizes in-depth transposon-directed insertion-site sequencing to elucidate the contribution of genes to Salmonella fitness within isogenic wild-type and aroA-deficient strains. Specifically, Rooke et al. demonstrate that the deletion of the aroA gene leads to iron-dependent membrane instability, raising several exciting new ideas surrounding Salmonella biology and therapeutic strategies.
Keywords: Salmonella; iron utilization; outer membrane.