pylori (ATCC 43504 strain and

seven clinical isolates obt

pylori (ATCC 43504 strain and

seven clinical isolates obtained from mucosal samples from different subjects) evaluated in HEPES (panel A) or Brucella Broth Bulion (panel B). MBC indicates concentrations at which compounds completely eradicate an inoculum of H. pylori. Table 1 Evaluation of sensitivity of clinical strains of H. pylori to antibiotics. H. pylori strains Antibiotics   AMX CLR TET Metronidazole ATCC 43504 0.016 0.094 0.25 64.0 ® 1 0.094 0.125 0.75 0.19 2 <0.016 0.19 0.125 0.094 3 0.016 0.25 3.0 0.5 4 0.032 0.047 2.0 32.0 ® PLX4032 mw 5 0.25 64.0 ® 1.0 96.0 ® 6 0.032 1.5 ® 1.5 32.0 ® 7 0.047 1.5 ® 2.0 48.0 ® MIC values (μg/ml) (AMX-amoxicillin, CLR-clarithromycin, TET-tetracycline) Antibacterial this website activity of LL-37, WLBU2 and CSA-13 after pre-incubation at low pH with pepsin or mucin In addition to known inhibition of CAPs antibacterial activity by divalent cations such as Mg2+ and Ca2+, the proteolytic activity of pepsin may also compromise CAPs function in the gastric juice environment with the presence of mucins, and low pH. To address this possibility we evaluated the antibacterial activity against Escherichia coli MG1655 after 3 hours pre-incubation of LL-37, WLBU2 and CSA-13 in simulated gastric juice in comparison

to activity selleck screening library after their pre-incubation in PBS at pH 7.4. Before conducting the killing assay, the pH of samples with low pH and low pH/pepsin was adjusted to 7.4. The antibacterial activity of LL-37 and WLBU2 peptides against E. coli MG1655 was

not significantly changed after pre-incubation at pH ~1.5, but was lost after pre-incubation at pH ~1.5 in the presence of pepsin (Figure 3A and 3B). In contrast, the antibacterial activity of CSA-13 was unchanged by pre-incubation at pH ~1.5 with or without pepsin (Figure 3C). On the other hand, bactericidal activities of all components were compromised to various extents when tested using a bacterial killing assay in the presence medroxyprogesterone of purified gastric mucin. In close agreement with results obtained from this E. coli MG1655 study, MBC values of LL-37 peptide evaluated after 1H pre-incubation with buffer at low pH containing pepsin or mucin was increased but those of CSA-13 were nearly unchanged (Figure 3D). All evaluated agents lost antibacterial activity in PBS supplemented with 10% human bile (a concentration that does not interfere with E. coli MG1655 growth – data not shown). This result suggests that physico-chemical properties of antibacterial molecules promote their insertion in bile lipoprotein, thereby limiting their interaction with the bacterial wall. There has been no study to evaluate antibacterial activity of CAPs in duodenal juice, but these results indicate that bile reflux into the stomach may interfere with CAPs activity. Figure 3 Antibacterial activity against E. coli MG1655 and H. pylori strain ATCC 43504. Antibacterial activity of LL-37 (panel A), WLBU2 (panel B) and CSA-13 (panel C) against E.

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