Toxicology in vitro : an international journal published in association with BIBRA
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A validation of the in vitro skin corrosion method using the EpiDerm skin model was performed using 12 recommended chemicals. All chemicals were correctly classified by OECD test guideline 431. In order to predict corrosion and/or irritation potential, additional compound exposure times and IL-1alpha measurements were included in a tiered testing approach. ⋯ Specificity (% non-irritants concurring with EU classification) was 60% (MTT) and 100% (MTT+IL-1alpha). Sensitivity (% irritants concurring with EU classification) was 86% (MTT) and 86% (MTT+IL-1alpha). Accuracy (% chemicals correctly identified) was 75% (MTT) and 92% (MTT+IL-1alpha).
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The cytoprotection of LLC-PK1 cells afforded by endoplasmic reticulum (ER) stress preconditioning suggests that the ER plays an important role during drug-induced renal toxicity. However, in vitro studies have been largely limited to LLC-PK1 cells and model toxins. Therefore, we tested the hypothesis that cytoprotection following ER stress preconditioning is a common property of renal cell lines (LLC-PK1 (pig), NRK-52E (rat), HEK293 (human), MDCK (dog)) and extends to clinically relevant nephrotoxins. ⋯ Toxicity of clinically relevant drugs (cisplatin, gentamicin, glyoxylate, cyclosporine A, p-aminophenol) was significantly decreased in cells preconditioned by tunicamycin or DTTox. These results demonstrate that ER stress preconditioning offers cytoprotection against clinically relevant nephrotoxins in renal cell lines from multiple species, although there were qualitative and quantitative differences between the cell lines. These results support the hypothesis that ER is involved in drug-induced renal toxicity.
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Stevia pilosa and Stevia eupatoria are plants used for various purposes in traditional medicine. In this report we studied the antimutagenic effect of methanolic extracts obtained from leaves, root, and flowers of the two species using the Ames test with and without metabolic activation. We tested the effect of the extracts on the damage induced by three mutagens with the following results: 1 - we found an inhibitory effect of both species on the mutagenicity induced by 2-aminoanthracene in the strain TA98. ⋯ The flowers of S. pilosa and the root of S. eupatoria showed about 93% of inhibition, 3 - finally, the mutations induced by mitomycin-C on the strain TA102 had a reduction of 87% with the leaves of S. eupatoria. Besides, we determined the radical scavenging potential of the extracts with the DPPH method, and found a potent effect produced by all extracts, with an efficacy of more than 90%. The present study showed both antimutagenic and antioxidant potential of the tested extracts, and suggest the pertinence to confirm these effects in other models, and to accurately determine their mechanism of action.
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Purified red blood cells, exposed to an ozone atmosphere, show an increased rate of hemolysis on sudden osmotic stress. To determine this effect of ozone in the presence of natural antioxidants, bovine red blood cells, used as models, were suspended in blood plasma, or in physiological saline with one of the following antioxidants: albumin, glutathione, uric acid, glucose and a vitamin E analog (trolox). After exposure of the suspensions to oxygen and oxygen/ozone atmospheres the rates of osmotic hemolysis were measured, using a stop-flow technique, and compared with rates measured in air-exposed controls. ⋯ Albumin, glutathione and uric acid tended to protect the cells from the hemolytic effects of ozone. The antihemolytic effect of glucose, seen only in some samples, may depend on uncontrolled factors. The alteration of the rates correlates with an increased fluidity of red cell membranes exposed to ozone.