The anova test was used to analyze the results of phagocytosis in the study. The growth of P. aeruginosa PAO1 was monitored for 48 h to determine any effect of ginseng on bacterial growth. Growth of the culture was monitored by OD measurements from inoculation to the stationary phase. The results showed that ginseng does not inhibit PAO1 growth, but if anything,
had a weak stimulating effect (Fig. 1). Similar results were obtained with the mucoid strain of P. aeruginosa PDO300 and the clinical isolate of P. aeruginosa NH57388A (data not shown). Nonmucoid P. aeruginosa wild-type PAO1 and its isogenic mucoid derivative PDO300 were cultured for 3 days in flow chambers in the presence or absence of 0.5% medium-supplemented ginseng extract. In the absence of Deforolimus cost ginseng, both mucoid and nonmucoid strains formed biofilms in the flow chambers, but the morphology of the biofilms of the two stains was different (Fig. 2). PAO1 formed a relatively flat biofilm, whereas PDO300 formed biofilms with distinct microcolonies. In contrast, the development of biofilms in both bacterial strains in the presence of 0.5% of ginseng was significantly inhibited (Fig. 2b and d). Moreover, biofilms formed by PAO1 and FK228 nmr PDO300 without ginseng were tolerant to the treatment of tobramycin
in 20 μg mL−1 for 24 h, whereas biofilms of the two strains developing poorly in the presence of 0.5% ginseng were sensitive to tobramycin, and most of the bacterial cells were eventually killed (Fig. 2b and d). Biofilms of wild-type PAO1, mucoid PDO300 and a mucoid clinical isolate NH57388A were developed
in flow chambers for 7 days, after which the medium was supplemented with 0.5% ginseng extract. Surprisingly, after exposure to Adenosine the ginseng-supplemented medium, the biofilms of the three stains were gradually removed with few or no live bacteria after 20 h of exposure to ginseng (Fig. 3). The biofilm of nonmucoid wild-type PAO1 showed nearly no living bacterial cells after 10 h of exposure to the ginseng extract (Fig. 3a). The PAO1 biofilm disappeared much faster than the two mucoid biofilms (Fig. 3b and c). Constant observations under CLSM revealed that a rapid movement and dissolution of the cellular mass took place inside the preformed biofilms. This phenomenon was observed for all strains including the clinical isolate of NH57388A. The motility of the P. aeruginosa bacterial cells was in general elevated after exposure to ginseng (data not shown). Swarming motility has been characterized as flagella-dependent movement on viscous surfaces. The effect of 0.25% of ginseng on the swarming motility of P. aeruginosa PAO1, the isogenic fliM mutant and the mucoid PDO300 was evaluated. Swarming was only observed in the plate of PAO1 in the absence of ginseng. This result suggests that ginseng reduces the swarming motility of P. aeruginosa PAO1 (Fig. 4a). The swimming motility of P. aeruginosa also depends on flagellar movement.