Overall, the data point to the possibility that the aerobactin tr

Overall, the data point to the possibility that the aerobactin transport system participates in the maintenance of the bacteria within the anaerobic environment of the gut. Therefore, this iron transport system in E. coli O104:H4 becomes an important “fitness” determinant, as in the utilization of ferric iron, it confers a competitive advantage to this and other pathogenic bacteria over Regorafenib purchase those organisms that do not possess this transport system. Although the mouse model

does not accurately reflect the intestinal infection or complications seen in humans infected with EAEC, STEC or E. coli O104:H4, it still remains a relatively practical way to investigate the pathogenesis of E. coli strains, especially when compared to more resource-consuming animal models of EAEC/STEC infection, such as the gnotobiotic piglet [33, 34] and the rabbit [35, 36]. Previous studies have shown that an EAEC O104:H4 strain 55989Str can colonize the streptomycin-treated mouse gut extensively for at least 3 weeks [37]. Even though no check details sign of disease was evident in the infected animals, the same model was recently used to study the replication of three bacteriophages specific for an EAEC O104:H4 strain, and the mouse intestinal samples enabled the investigators to examine the long-term dynamic interactions between bacteriophages and bacteria within a mammalian host [38]. In the case of STEC, the mouse model

has been developed and used to monitor STEC disease and pathology, as well as the impact of Stx in the promotion of intestinal colonization [39]. In our case, the incorporation of BLI analysis proved a useful tool in facilitating the development of an E. coli O104:H4 pathogenesis model, as it significantly reduced the number of animals required to identify the intestinal site of E. coli O104:H4 persistence and Erythromycin colonization. Although the lux-encoded

plasmid system that we utilized failed to monitor the infection beyond 7 days and the signal decreased significantly with ex vivo intestines, as previously reported [19], it proved to be a useful way of quantifying colonization of this strain while lacking experimental information about putative pathogenic genes. Currently, we are improving our reporter E. coli O104:H4 strain by mobilizing a constitutively expressed lux operon into its chromosome, providing a stable system that can be used to monitor intestinal colonization and persistence properties for an extended period of time. Conclusions Our findings demonstrate that bioluminescent imaging is a useful tool to monitor E. coli O104:H4 colonization properties and present the murine model as a rapid means of evaluating the selleck screening library bacterial factors associated with fitness and/or colonization during E. coli O104:H4 infections. Methods Bacterial strains and mutant construction All strains used in this study are derivatives of the E. coli O104:H4 strain C3493, isolated from a stool sample of a patient with HUS during the 2011 E.

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