A murine model of Shigella sonnei intestinal colonization

Shigella sonnei is a leading cause of bacterial dysentery and a high priority WHO pathogen because of the spread of multidrug resistant strains. Understanding microbiome-Shigella-host interactions during colonization of the gastrointestinal tract, and the development of vaccines have been hampered by the lack of small animal models of shigellosis. Here, we developed a murine model of intestinal colonization with S. sonnei. Pre-treatment of mice with antibiotics disturbed the intestinal microbiome and rendered mice susceptible to high level, gastrointestinal colonization with S. sonnei for over one week. Infection with S. sonnei CS14 harbouring a stable virulence plasmid induced an initial inflammatory response in wild type mice, with weight loss and elevated levels of fecal lipocalin 2; the S. sonnei Type III Secretion System was responsible for this inflammatory response. Expression of O-antigen and Group IV capsule by S. sonnei promoted sustained intestinal colonization, with infected mice developing mucosal and systemic antibody responses predominantly directed at these glycans. Finally, infection with S. sonnei induced a degree of protection against subsequent re-challenge. Overall, this murine model successfully mimics aspects of S. sonnei colonization and should be helpful in understanding how S. sonnei successfully survives within the gastrointestinal tract and competes with the microbiota as well as the evaluation of vaccine candidates.