Salmonella enterica serovar Typhimurium is a common cause of enterocolitis in humans and cattle but causes a systemic, typhoid-like, disease in susceptible mice. This facultative intracellular pathogen invades non-phagocytic cells, such as those found in the intestinal epithelium, and survives within a modified phagosome known as the Salmonella-containing vacuoles (SCV). Two type III secretion systems (T3SS), which translocate distinct cohorts of bacterial effector proteins into the host cell, are required for establishment of the intracellular replicative environment. Invasion is dependent on T3SS1 whereas T3SS2 is induced intracellularly and is associated with intracellular survival/replication and biogenesis of the SCV. To understand Salmonella pathogenesis we must dissect the roles of the individual T3SS1 and T3SS2 effector proteins as well as the mechanisms that control their expression and activity inside host cells. Another important aspect of the host-pathogen interaction is the biogenesis of the SCV, from initial formation through to the ultimate release of bacteria. We have previously shown that SCV biogenesis involves sustained dynamic interactions with the endocytic pathway including late endosomes and lysosome. We are now focusing our efforts on the initial stages of SCV formation, with the goal of obtaining detailed proteomics data on the membrane ruffles and nascent phagosome. Host cell proteins enriched in these fractions will be followed up to establish their roles in the process.
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