Background-Reactive oxygen metabolites have been associated with gastrointestinal injury. Objective-To investigate whether mucosal reactive oxygen metabolites are involved in acid and pepsin induced oesophagitis, and if so, which specific metabolites. Methods-The effects of free radical scavengers and the anti-inflammatory drug ketotifen on rabbit oesophagitis induced by acidified pepsin were studied. Isolated oesophageal cells were obtained before and after oesophageal injury and the generation of superoxide anion and hydrogen peroxide was analysed by flow cytometry. The presence of inflammatory celis was determined by indirect immunofluorescence with a mouse antirabbit CDllb antibody. Results-Of the free radical scavengers tested, superoxide dismutase, which reacts with the superoxide anion, significantly reduced oesophagitis, whereas catalase, which reacts with hydrogen peroxide, had only a mild effect and dimethylsulphoxide had no effect. Ketotifen significantly reduced the inflammation and also prevented the induction of oesophagitis. Isolated cells obtained from the oesophageal mucosa after acidified pepsin exposure generated increased amounts of superoxide anions, which were mainly produced by CDl lb positive cells. Conclusion-Reactive oxygen metabolites, especially superoxide anion, produced by inflammatory cells play a significant part in the genesis of oesophagitis induced by acid and pepsin in rabbits and might be a target for future medical therapy.
The tumour microenvironment (TME) has recently drawn much attention due to its profound impact on tumour development, drug resistance and patient outcome. There is an increasing interest in new therapies that target the TME. Nonetheless, most established
in vitro
models fail to include essential cues of the TME. Microfluidics can be used to reproduce the TME
in vitro
and hence provide valuable insight on tumour evolution and drug sensitivity. However, microfluidics remains far from well-established mainstream molecular and cell biology methods. Therefore, we have developed a quick and straightforward collagenase-based enzymatic method to recover cells embedded in a 3D hydrogel in a microfluidic device with no impact on cell viability. We demonstrate the validity of this method on two different cell lines in a TME microfluidic model. Cells were successfully retrieved with high viability, and we characterised the different cell death mechanisms via AMNIS image cytometry in our model.
Flow cytometry was used to investigate the participation of reactive oxygen species, other than singlet oxygen, in the cytotoxic effect of photodynamic therapy (PDT) with 5-aminolevulinic acid (ALA)-induced protoporphyrin IX (PpIX) in vitro in A-431 squamous cell carcinoma (SCC) cells and human skin fibroblasts (HSF). We used propidium iodide to determine cellular cytotoxicity, hydroethidine to measure intracellular superoxide anion (O2-) and dihydrorhodamine 123 to assess intracellular hydrogen peroxide (H2O2) content. Our data support the importance of the incubation time with ALA in the selectivity of PDT with ALA against SCC cells, inducing minimum damage on normal HSF. Photoradiation mortality curves of the response of these cell lines to ALA-induced PpIX photosensitization correlated with the extent of photosensitizer accumulation. Intracellular O2- production correlated with cell death, increasing both in a light dose-dependent fashion in ALA treated cells. This correlation was not observed with H2O2-intracellular production. These results suggest the effectiveness of PDT with ALA in vitro in SCC, the significant participation of O2- in its phototoxic mechanism, and the usefulness of flow cytometry in the study of the cytotoxic effect of ALA-induced PpIX PDT.
ERβ-dependent relaxation of rat aortic smooth muscle evokes an adenylate cyclase/cAMP/PKA signalling pathway, likely activating the cystic fibrosis transmembrane conductance regulator chloride channel and at least four potassium channels.
Calcium dobesilate protected human varicose veins against oxidative stress in vitro at levels that correspond to therapeutic concentrations. Further studies are required to investigate whether a similar action is found in varicose veins from patients orally treated with calcium dobesilate.
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