Effect of growth of Bacteroides fragilis at different redox levels on potential pathogenicity in a HeLa cell system: demonstration by confocal laser scanning microscopy.

During trauma, the intestinal anaerobe, Bacteroides fragilis, may enter into a pathogenic state. The process coincides with changing environmental conditions particularly the redox level in situ. To gain insight into this phenomenon B. fragilis was grown at different redox levels, and the invasive potential was examined using an in vitro model consisting of HeLa cell monolayers. The clinical strain AIP 5-86 was taken from a small collection of B. fragilis strains able to penetrate into tissue cell monolayers when selected by an acridine orange-crystal violet fluorescent staining technique. Following preliminary investigation by confocal laser scanning microscopy (CLSM), this particular strain was regarded as representative for examining the invasive potential. After growth in a defined medium under oxidizing, reducing or intermediate Eh7 conditions, the washed mid-log phase bacteria were allowed to interact with HeLa cell monolayers for 45 min at 37 degrees C. The results were extensively monitored by CLSM to follow the reactions in a stereoscopic dimension. In addition, the bacteria were examined by transmission and scanning electron microscopy before interaction to distinguish characteristics in surface configuration. The growth of the bacteria at particular redox levels seemed to influence their potential for pathogenicity. After growth at relatively high Eh, the bacteria easily penetrated into the HeLa cells, but not at low Eh, as determined by the laser scanning studies. Examination of the bacteria alone by transmission and scanning electron microscopy revealed small vesicles and a tendency to aggregate after growth at the low redox level while there were rather few vesicles and an implied dispersion at the high redox level. This leaves it open whether the invasiveness was based on the alterations found during growth of the bacteria. Different redox levels as well as the respective changes of the bacterial surface may help to discern the commensal from the pathogenic state of B. fragilis.