MCE domains were first reported in Mycobacteria as having a role in Mammalian Cell Entry, with subsequent studies showing their importance during infection. Here, we have examined the function of MCE proteins in Salmonella Typhimurium during mammalian infection. We report that MCE proteins are required for Salmonella virulence, but that this is not related to decreased adherence, entry or survival in mammalian cells. Instead, we reveal that MCE proteins are required for Salmonella bile resistance, in particular to withstand bile salts such as cholate and deoxycholate. Based on our previous work in Escherichia coli, and other studies that have reported roles for MCE proteins in membrane biogenesis, we propose that Salmonella lacking MCE domains have a defective outer membrane that results in bile sensitivity and decreased virulence in vivo. These results suggest that MCE domains mediate fundamental aspects of bacterial membrane physiology as opposed to a proposed direct role in mammalian cell entry, explaining their conservation across both pathogenic and non-pathogenic bacteria. Author contributionsGLI conducted the experimental work with help from JLR, AER, CAA, ES, TJM and CI. GLI wrote the manuscript with contributions from JAC and IRH. GLI lead the project with supervision from JAC and AFC, and IRH who conceived the study.