Oxidative stress plays a role in the regulation of cancer cell metastasis which involves cell invasion and adhesion that could be supported by ADAM proteins through the activities of their metalloprotease and disintegrin domains. We hypothesized that oxidative stress could act through the induction of ADAM9 protein in some cancer cells. Indeed, Western blot analysis for ADAM9 performed on A549 cells exposed to H 2 O 2 reveals a dose-dependent induction of two proteins (80 and 68 kDa) correlated with a sharp increase of the ADAM protease activity measured in supernatant while the activity measured on the cell layer was slightly affected. The 80kDa protein corresponds to the mature form of ADAM9. Immunoprecipitation analysis performed on concentrated supernatants revealed that the 68 kDa protein is a secreted form of ADAM9. When exposed to H 2 O 2 , A549 cells cocultured with confluent endothelial vascular cells resulted in a 5.5 fold (p < 0.001) increase in the number of adherent cells. Similarly, matrigel assay revealed a 3.25 fold (p < 0.01) increase in the number of invasive cells. The suppression of ADAM9 expression by specific small interfering RNA reduced oxidative stress-induced invasiveness and adhesiveness. These functions could be mediated by an interaction between ADAM9 and b1 integrin because each of them were inhibited when the experiment is performed in presence of mAbs targeting ADAM9 ectodomain or b1-integrin. These results emphasize the importance of oxidative stress in the regulation of cancer cell metastasis and suggest that ADAM9 and its secreted isoform can be important determinants in the ability of cancer cells to disseminate.
The bystander effect (BE) is the ability of malignant cells affected by an anticancer agent to induce damage in neighboring cancer cells. In this study, we showed that it could also affect immune cells surrounding the tumor and interfere with the antitumor immune response. We observed that the exposure of human lung cancer cells A549 to vinorelbine induced a BE on neighboring human peripheral blood mononuclear cells (PBMCs) in vitro and on mice splenocytes in vivo. In vitro, the number of PBMCs killed because of their coculture with vinorelbine-pretreated A549 cells was 33% higher than those killed by A549 control cells (p 5 0.003). In addition, we showed that when vinorelbine-pretreated A549 cells were injected into immunocompetent mice, splenocyte proliferation ex vivo toward tumor cells decreased by 27% compared with that seen in mice injected with untreated A549 cells (p 5 0.03). Finally, in vivo experiment in A549 tumor bearing nude mice showed that adoptive transfer of A549 immune splenocytes was not able to delay tumor growth when vinorelbine-pretreated A549 cells were used for immunization. Inhibition of the BE by the nitric oxide synthase inhibitor, N(G)-nitro-L-arginine methyl ester, and the superoxide dismutase mimic, mangafodipir, suggested that it was mediated by oxidative and nitrosative stress. In conclusion, exposure of cancer cells to vinorelbine alters the antitumor immune response through a BE mediated by cellular oxidative and nitrosative stress. Our results offer new prospects for using oxidative stress modulators to restore the antitumor immune response in patients treated with anticancer agents.The bystander effect (BE) initially described in the gene therapy field has recently gained popularity in oncology.
Not surprisingly, PIs were predominantly to correct dose errors, half of which related to height and weight measurements that were not updated. No significant risk factors for errors were identified for errors except in the standardized status of prescription, which appears to be linked in part to our software that did not automatically reflect dose reduction from one course to the next. Medical double-checking followed by a clinical pharmacist's double check were effective in order to prevent prescription errors.
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