As expected, putative F pili were not detected in the single biofilms formed by traA-negative EAEC strain 17-2 (Figure 6C). Curli fibers were occasionally detected in biofilms formed by EAEC strain 340-1 mainly during single biofilm formation (Figure 6D). Figure 6 SEM micrographs showing the biofilms developed by EACF 205 and EAEC strains. A- Single biofilm formed by traA-positive EAEC strain 340-1. Arrows indicate the putative F pili. Note that pili were not limited to the polar region of the bacteria and, at www.selleckchem.com/products/pf-06463922.html times, were viewed to intertwine forming thicker structures. B- Enhanced biofilm developed by coculture of EACF
205 and traA-positive EAEC strain 340-1. White arrowhead indicates the incipient formation of curli fibers and arrows indicate the putative F pili. C- Single biofilm developed by traA-negative prototype strain 17-2. D- Single biofilm formed by EAEC 340-1 displaying curli fibers (white arrowheads). Curli fibers were shown to mediate cell-cell adherence and interaction to abiotic surface. Arrow indicates a putative F pilus. Zinc effect on single biofilms produced by typical EAEC strains isolated from asymptomatic and diarrheic children
In order to evaluate the role of putative F pili on biofilm formation, 43 AAF (I and II)-negative EAEC strains, FK228 including 24 strains recovered from diarrhea and 19 recovered from healthy children (control group), had their ability to form biofilms challenged by zinc. Additional genetic characterization (Table 1) showed that two of these strains were Anacetrapib positive for AAF/III and that six strains harbored adhesion factors associated with other E. coli pathotypes (Figure 7). Employing the average reduction presented by traA-positive EAEC prototype strain 042 (41.1%) as a cut-off line, the assays showed that the EAEC strains were sorted into two groups plotted in opposite positions (Figure 8).
Most of the strains isolated from diarrhea positioned above the cut-off line and thus were considered to form biofilms sensitive to zinc. Specifically, sixteen of 24 (66%) diarrhea-isolated strains were ranked above the cut-off line. In addition, seven of 10 strains recovered from persistent diarrhea formed biofilms sensitive to zinc (P < 0.01 comparing with control group). In contrast, 17 of 19 (89%) strains isolated from healthy children formed biofilms resistant to zinc (P < 0.001 when compared with diarrheic group). Figure 7 Characterization of the typical EAEC strains which were tested for biofilm sensitivity to zinc. Most of the strains isolated from diarrhea positioned above the cut-off value and thus were considered to form biofilms sensitive to zinc.