Tissues were processed and examined by electron microscopy to determine whether infection with E. coli O104:H4 damaged intestinal epithelial cells. As shown in Figure 1C, bacteria were present in E. coli O104:H4-only infected tissues at all time points. Although,
no close interaction with the epithelia was observed, GDC-941 destruction of the microvilli and cell death were detected in the sections analyzed at 48 h and 72 h post infection. Macroscopically, the pathological damage of the intestinal wall at these time points was depicted as bleeding upon contact. In contrast, no changes to tissue integrity were observed at 24 h post infection. At 7 days, integrity of the intestinal epithelial barrier recovered, despite an increase in the number of luminal bacteria. The bacteria appeared clustered and surrounded by extracellular matrices of unknown LY3023414 molecular weight composition, an interesting feature observed at 72 h post infection (Figure 1C). Histological examination of the H&E-stained infected tissues also revealed scattered inflammatory infiltrates in the submucosa at 24 and 48 h. Inflammatory infiltrates rarely extended to the mucosa and the muscularis. With the exception of rare foci showing residual necrosis and inflammation, the sections collected at 72 h and at 7 days
appeared mostly unremarkable (Figure 1D). Aerobactin receptor expression is induced on MacConkey agar We have previously demonstrated that expression of novel putative virulence
factors, such as the locus for diffuse adherence in atypical enteropathogenic E. coli[21] or the enterotoxigenic E. coli afimbrial adhesion locus (del Canto et al., manuscript in preparation), are induced when bacteria are grown on MacConkey agar at 37 °C. Furthermore, it is shown that if these factors are expressed on the bacterial MG 132 surface, a simple extraction method using heat is sufficient in isolating the protein that can then be submitted for sequencing [21]. Therefore, we investigated proteins expressed differentially on MacConkey compared to LB agar in 3 E. coli O104:H4 strains: our prototype German E. coli O104:H4 isolate C3493 and 2 E. coli O104:H4 (strains 2050 and 2071) recovered from an outbreak in the Republic of Georgia. Coomassie-stained OSI-027 molecular weight SDS-PAGE gel comparison of the heat-extracted protein profiles of the 3 E. coli O104:H4 grown in LB and MacConkey agar revealed one protein in all 3 strains with an apparent molecular weight of ~80 kDa when samples were grown on MacConkey agar (Figure 2, protein A). A second protein of ~55 kDa was also expressed in the E. coli O104:H4 strain 2071 (Figure 2, protein B). In contrast, these two proteins were absent from the crude heat-extracts of the 3 E. coli O104:H4 strains grown in LB agar alone. Both proteins were submitted for MALDI-TOF analysis and identified as the ferric aerobactin receptor (protein A, 731 aa, 80.9 kDa; 18% sequence coverage) and the E.
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