Implications of oxidative stress in the cytotoxicity of Pseudomonas aeruginosa ExoU.

ExoU PLA2-like activity has been shown to account for membrane lysis and acute death of infected cells. Translocation of effector proteins by the type III secretion systems depends on close contact between microbial and host cells. Our finding that both the ExoU-producing PA103 Pseudomonas aeruginosa and its mutant obtained by deletion of exoU adhered poorly to endothelial cells (EC) led to the hypothesis that, in some cells, the amount of injected toxin may not be enough to induce cell lysis but cells would suffer from a long-term effect of ExoU intoxication. To address this question, cells were exposed to both bacteria for 1 h and then treated with gentamicin-containing medium, to eliminate infecting microorganisms. After 24 h, the percentage of viable EC in PA103-infected cultures was significantly lower than in cultures exposed to the mutant, as determined by the MTT assay. Cell death was not likely to depend on the ExoU lytic activity since cell labeling with propidium iodide was similar in cultures infected with both bacterial strains. Bacterial cytotoxicity was significantly reduced by MAFP, a specific inhibitor of cPLA2 and iPLA2. Since the PLA2 activity on membrane phospholipids generates free fatty acid, including arachidonic acid (AA), we next compared the bacterial ability to release AA from infected EC. PA103 was shown to induce a potent AA release that was inhibited by MAFP. AA oxidation by oxygenases generates eicosanoids, known to induce both cell death and proliferation. However neither inhibitors of cyclooxygenases (ibuprofen) nor lipoxygenases (NDGA) reduced the ExoU toxicity. Since non-enzymatic oxidation of AA generates reactive radicals, we next investigated the PA103 ability to induce oxidative stress in infected cells. FACS analysis of cell labeling with the C-11 fluor probe and with anti-4-hydroxynonel antibody revealed a significant peroxidation of cell membrane lipids. These results, together with our finding that PA103-infected EC death was significantly attenuated by alpha-tocopherol, led to the conclusion that AA-induced oxidative stress may be another mechanism of cell damage in the course of infection by ExoU-producing P. aeruginosa.

Binding of plasminogen to Pseudomonas aeruginosa results in formation of surface-associated plasmin and enhanced bacterial invasiveness.

The interaction of Pseudomonas aeruginosa with plasminogen (Plg) is herein reported. Plg bound similarly to laboratory and clinical P. aeruginosa isolates from blood of septicemic patients and stools of asymptomatic carriers. No difference in Plg capture was detected between the piliated PAK strain and its isogenic nonpiliated mutant. Western immunoblotting results suggested that low molecular weight nonpilus adhesins from the bacterial outer membranes accounted for the Plg capture. Bacteria-bound Plg was converted to bioactive plasmin in the presence of exogenous urokinase-type Plg activator. The presence of surface-bound plasmin enhanced significantly the P. aeruginosa capability to invade fibrin gels and a reconstituted basement membrane matrix. These findings support the concept that Plg capture by P. aeruginosa may represent a mechanism which offers advantages to bacterial invasiveness through tissue barriers.

ExoU contributes to late killing of Pseudomonas aeruginosa - infected endothelial cells

Para determinar o papel de ExoU na citotoxicidade tardia de P. aeruginosa, células endoteliais (CE) foram expostas às cepas PA103, PA103DxoU e PA103::exsA por 1h e à gentamicina em meio de cultura. Após 24h, a viabilidade das CE infectadas com PA103 (33.7 ± 14.3%) foi inferior à de CE infectadas com PA103DexoU (77.7 ± 6.3%) e PA103::exsA (79.5 ± 23.3%). A citotoxicidade não dependeu da capacidade de interagir com as CE porque o percentual de células com bactérias associadas em culturas expostas a PA103 foi semelhante ao percentual em culturas expostas a PA103DexoU e inferior em culturas expostas a PA103::exsA. O tratamento das CE com citocalasina D reduziu a internalização de PA103, mas não interferiu em sua citotoxicidade.

ExoU contributes to late killing of Pseudomonas aeruginosa - infected endothelial cells

To ascertain the role of ExoU in late P. aeruginosa cytotoxicity, endothelial cells (EC) were exposed to wild type PA103, PA103deltaexoU and PA103::exsA for 1h and to gentamicin in culture medium. After 24h, the viability of PA103-infected cells (33.7 ± 14.3%) was significantly lower than the viability of PA103deltaexoU- (77.7 ± 6.3%) or PA103::exsA- (79.5 ± 23.3%) infected EC. P. aeruginosa cytotoxicity did not depend on the bacterial ability to interact with EC because the percentage of cells with associated PA103 (35.9 ± 15.8%) was similar to the percentage in PA103deltaexoU- (34.2 ± 16.0%) and lower than the percentage in PA103::exsA-infected cultures (82.9 ± 18.9%). Cell treatment with cytochalasin D reduced the PA103 internalization by EC but did not interfere with its ability to kill host cells.

Para determinar o papel de ExoU na citotoxicidade tardia de P. aeruginosa, células endoteliais (CE) foram expostas às cepas PA103, PA103deltaxoU e PA103::exsA por 1h e à gentamicina em meio de cultura. Após 24h, a viabilidade das CE infectadas com PA103 (33.7 ± 14.3%) foi inferior à de CE infectadas com PA103deltaexoU (77.7 ± 6.3%) e PA103::exsA (79.5 ± 23.3%). A citotoxicidade não dependeu da capacidade de interagir com as CE porque o percentual de células com bactérias associadas em culturas expostas a PA103 foi semelhante ao percentual em culturas expostas a PA103deltaexoU e inferior em culturas expostas a PA103::exsA. O tratamento das CE com citocalasina D reduziu a internalização de PA103, mas não interferiu em sua citotoxicidade.

ExoU contributes to late killing of Pseudomonas aeruginosa - infected endothelial cells

To ascertain the role of ExoU in late P. aeruginosa cytotoxicity, endothelial cells (EC) were exposed to wild type PA103, PA103deltaexoU and PA103::exsA for 1h and to gentamicin in culture medium. After 24h, the viability of PA103-infected cells (33.7 ± 14.3%) was significantly lower than the viability of PA103deltaexoU- (77.7 ± 6.3%) or PA103::exsA- (79.5 ± 23.3%) infected EC. P. aeruginosa cytotoxicity did not depend on the bacterial ability to interact with EC because the percentage of cells with associated PA103 (35.9 ± 15.8%) was similar to the percentage in PA103deltaexoU- (34.2 ± 16.0%) and lower than the percentage in PA103::exsA-infected cultures (82.9 ± 18.9%). Cell treatment with cytochalasin D reduced the PA103 internalization by EC but did not interfere with its ability to kill host cells.

Para determinar o papel de ExoU na citotoxicidade tardia de P. aeruginosa, células endoteliais (CE) foram expostas às cepas PA103, PA103deltaxoU e PA103::exsA por 1h e à gentamicina em meio de cultura. Após 24h, a viabilidade das CE infectadas com PA103 (33.7 ± 14.3%) foi inferior à de CE infectadas com PA103deltaexoU (77.7 ± 6.3%) e PA103::exsA (79.5 ± 23.3%). A citotoxicidade não dependeu da capacidade de interagir com as CE porque o percentual de células com bactérias associadas em culturas expostas a PA103 foi semelhante ao percentual em culturas expostas a PA103deltaexoU e inferior em culturas expostas a PA103::exsA. O tratamento das CE com citocalasina D reduziu a internalização de PA103, mas não interferiu em sua citotoxicidade.