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The aim of this study was to explore the possibility of distinguishing between eye irritants (I; EU risk phrases R36 and R41) and nonirritants (NI), by using
The goal of this study was to design a model system for the assessment of phototoxic potential using a human reconstructed epidermis (HRE, SkinEthic® Laboratories, Nice, France), by testing
some representative phototoxic (P) and non-phototoxic (NP) compounds and finished topical products. The tissue response to 24-h application of 5-5000
Nile Red is a fluorescent dye used extensively to study fat accumulation in many types of cells; unfortunately protocols that work well for most cells are not effective for studying drug-induced lipid accumulation
in cultured liver cells and hepatocyte-derived cell lines. Using human hepatoma (HepG2) cells, we have developed a simple Nile Red binding assay as a screen for steatosis-inducing compounds. Increases in
Nile Red binding in response to known hepatotoxic compounds were observed after incubating treated cells with 1
Comparative toxicity was determined for twenty potential chemopreventive agents in the Human Epithelial Cell Cytotoxicity (HECC) Assay using epithelial cell cultures from eight different tissues including:
skin, kidney, breast, bronchus, cervix, prostate, oral cavity, and liver. The endpoints assessed were inhibition of: growth at 3 and 5 days; mitochondrial function; and proliferating cell nuclear antigen
or albumin expression. Difluoromethylornithine (DFMO),
Previous studies produced models of oxygen-derived free radical (OFR) injury, using H2O2 or xanthine/xanthine oxidase (X/XO), in cultured porcine aortic endothelium (PAE) and rat coronary
endothelium. H2O2 at 0.1 mM resulted in 50% viability in both cell types. To determine if comparable H2O2 or X/XO concentrations have the same injurious effect
on endothelium from other sources, models of OFR injury were developed for bovine aortic endothelium (BAE) and bovine brain microvessel endothelium (BBME). Varying concentrations of H2O2
(0.01 to 6 mM) or X/XO (10
Oxidative stress induces cellular apoptosis. Many agents producing intracellular oxidative stress, including H2O2 and steroid hormones, have also been found to induce metallothionein (MT) expression. Recently, MT has been recognized as potentially having antioxidant activity. This action may be essential for survival of terminally differentiated cells subject to oxidative stress, such as syncytiotrophoblasts, placental cells producing pregnancy hormones and forming the maternal-fetal barrier. We previously demonstrated an inverse relationship between basal MT expression and apoptotic incidence in the trophoblastic cell line, JEG-3. Using JEG-3 cells transfected with MT in sense or antisense orientation, we have examined here the effect of altered basal MT levels on trophoblastic function and apoptosis following treatment with H2O2 or diethylstilbestrol (DES). Induction of MT mRNA was observed in control and transfected JEG-3 cells following exposure to severe oxidative stress. Changes in the localization of MT protein, however, were apparent after a low oxidative stress challenge. Exposure to H2O2 resulted in a dose-dependent decrease in human chorionic gonadotropin secretion in all JEG-3 cultures regardless of basal MT expression, whereas no change was detected following DES treatment. With respect to apoptosis, a significant protective effect was observed proportional to the basal MT level. These results suggest that although MT does not ameliorate oxidative stress-induced perturbation of some trophoblastic functions, its expression is critical for protection of these cells from severe oxidative stress-induced apoptosis. MT thus appears to act as an anti-apoptotic antioxidant in trophoblastic cells.
Sedanolide is a natural compound occurring in edible umbelliferous plants. Celery seed oil, a significant source of sedanolide, is used as an herbal remedy to treat inflammatory-associated conditions such
as gout and rheumatism. The objective of this study was to assess the potential protective properties of sedanolide against hydrogen peroxide (H2O2)- and
To investigate the molecular mechanism of intermediate myasthenia syndrome (IMS), we analyzed the toxic effects of the representative organophosphate dimethoate on the function and expression of the nicotinic
acetylcholine receptor (nAChR) in primary skeletal muscle cell culture. The results showed that the expression of nAChR on the muscle cell membrane was significantly increased after cells were exposed to
dimethoate (130