Abstract
The molecular mechanisms of virulence of the gastrointestinal pathogen Salmonella enterica are commonly studied using cell culture models of infection. In this work, we performed a direct comparison of the interaction of S. enterica serovar Typhimurium (S. Typhimurium) with the non-polarized epithelial cell line HeLa, the polarized cell lines CaCo2, T84 and MDCK, and macrophage-like RAW264.7 cells. The ability of S. Typhimurium wild-type and previously characterized auxotrophic mutant strains to enter host cells, survive and proliferate within mammalian cells and deploy the Salmonella Pathogenicity Island 2-encoded type III secretion system (SPI2-T3SS) was quantified. We found that the entry of S. Typhimurium into polarized cells was much more efficient than entry into non-polarized cells or phagocytic uptake. While SPI2-T3SS dependent intracellular proliferation was observed in HeLa and RAW cells, the intracellular replication in polarized cells was highly restricted and not affected by defective SPI2-T3SS. The contribution of aromatic amino acid metabolism and purine biosynthesis to intracellular proliferation was distinct in the various cell lines investigated. These observations indicate that the virulence phenotypes of S. Typhimurium are significantly affected by the cell culture model applied.
Highlights
Salmonella enterica is a common Gram-negative pathogen of man and animals
S. enterica can adopt an intracellular lifestyle in epithelial cells, fibroblasts, macrophages, dendritic cells and other immune cells
The analyses of SPI2-T3SS-dependent translocation addition of gentamicin and infected host cells were lysed at 2 h or 16 h after infection in order to determine the number of intracellular bacteria
Summary
Salmonella enterica is a common Gram-negative pathogen of man and animals These invasive, facultative intracellular bacteria can infect a variety of host organisms [1]. Typhimurium that are auxotrophic for distinct amino acids or precursors of nucleotide biosynthesis [6,7] are defective in intracellular proliferation These mutants strains are highly attenuated in virulence and some of the strains have proven useful as attenuated life vaccine against S. enterica infections or live carrier strains for heterologous vaccines [6]. Typhimurium (i) in the ability to enter nonphagocytic cells, (ii) to proliferate within host cells, as well as in the roles (iii) of metabolic pathways, and (iv) of the SPI2-T3SS for the adaptation to the intracellular lifestyle
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