For successful colonization, pathogenic bacteria need to adapt their metabolism and virulence functions to challenging environments within their mammalian hosts that are frequently characterized by low oxygen (O) tensions. Upon oral ingestion, the human pathogen serovar Typhimurium (. Typhimurium) is exposed to changing O and pH levels. Low concentrations of O, which can enhance the virulence of enteroinvasive pathogens, facilitate the expression of the type three secretion system (T3SS-1) encoded by the pathogenicity island 1 (SPI-1) that is critical for enteroinvasion and pathogenicity of Typhimurium. To study the impact of key environmental cues of the intestine when encounter enterocytes, we established an growth model, which allows shifting the concentration of O from 0.5% to 11% and the pH from 5.9 to 7.4 in the presence of acetate and the alternative electron acceptor nitrate. Compared to normoxia, hypoxia elevated the expression of SPI-1 genes encoding T3SS-1 translocators and effectors, which resulted in higher invasion and effector translocation in epithelial cells. While hypoxia and pH shift only marginally altered the gene expression of SPI-1 regulators, including the SPI-1 repressor , hypoxia and pH shift completely incapacitated HilE in a post-translational manner, ultimately promoting SPI-1 activity. From these findings, we conclude that O-dependent HilE function allows for ultrasensitive adaptation of SPI-1 activity in environments with varying O availability such as the intestinal tract.
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| http://dx.doi.org/10.3389/fcimb.2025.1434254 | DOI Listing |
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