Distribution and characterization of Shiga toxin converting temperate phages carried by Shigella flexneri in Hispaniola.

Shigella infections account for a considerable burden of acute diarrheal diseases worldwide and remain a major cause of childhood mortality in developing countries. Although, all four species of Shigella (S. dysenteriae, S. flexneri, S. boydii, and S. sonnei) cause bacillary dysentery, historically only S. dysenteriae type 1 has been recognized as carrying the genes for Shiga toxin (stx). Recent epidemiological data, however, have suggested that the emergence of stx carrying S. flexneri strains may have originated from bacteriophage-mediated inter-species horizontal gene transfer in one specific geographical area, Hispaniola. To test this hypothesis, we analyzed whole genome sequences of stx-encoding phages carried by S. flexneri strains isolated in Haiti and S. flexneri S. boydii and S. dysenteriae strains isolated from international travelers who likely acquired the infection in Haiti or the Dominican Republic. Phylogenetic analysis showed that phage sequences encoded in the Shigella strains from Hispaniola were bacteriophage φPOC-J13 and they were all closely related to a phage isolated from a USA isolate, E. coli 2009C-3133 serotype O119:H4. In addition, despite the low genetic heterogeneity of phages from different Shigella spp. circulating in the Caribbean island between 2001 and 2014, two distinct clusters emerged in Haiti and the Dominican Republic. Each cluster possibly originated from phages isolated from S. flexneri 2a, and within each cluster several instances of horizontal phage transfer from S. flexneri 2a to other species were detected. The implications of the emergence of stx-producing non-S. dysenteriae type 1 Shigella species, such as S. flexneri, spans not only the basic science behind horizontal phage spread, but also extends to medical treatment of patients infected with this pathogen.