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Publication Detail

Title: Methylmercury-induced alterations in astrocyte functions are attenuated by ebselen.

Authors: Yin, Zhaobao; Lee, Eunsook; Ni, Mingwei; Jiang, Haiyan; Milatovic, Dejan; Rongzhu, Lu; Farina, Marcelo; Rocha, Joao B T; Aschner, Michael

Published In Neurotoxicology, (2011 Jun)

Abstract: Methylmercury (MeHg) preferentially accumulates in glia of the central nervous system (CNS), but its toxic mechanisms have yet to be fully recognized. In the present study, we tested the hypothesis that MeHg induces neurotoxicity via oxidative stress mechanisms, and that these effects are attenuated by the antioxidant, ebselen. Rat neonatal primary cortical astrocytes were pretreated with or without 10 ýýM ebselen for 2h followed by MeHg (0, 1, 5, and 10 ýýM) treatments. MeHg-induced changes in astrocytic [(3)H]-glutamine uptake were assessed along with changes in mitochondrial membrane potential (ýýýý(m)), using the potentiometric dye tetramethylrhodamine ethyl ester (TMRE). Western blot analysis was used to detect MeHg-induced ERK (extracellular-signal related kinase) phosphorylation and caspase-3 activation. MeHg treatment significantly decreased (p<0.05) astrocytic [(3)H]-glutamine uptake at all time points and concentrations. Ebselen fully reversed MeHg's (1 ýýM) effect on [(3)H]-glutamine uptake at 1 min. At higher MeHg concentrations, ebselen partially reversed the MeHg-induced astrocytic inhibition of [(3)H]-glutamine uptake [at 1 min (5 and 10 ýýM) (p<0.05); 5 min (1, 5 and 10 ýýM) (p<0.05)]. MeHg treatment (1h) significantly (p<0.05) dissipated the ýýýý(m) in astrocytes as evidenced by a decrease in mitochondrial TMRE fluorescence. Ebselen fully reversed the effect of 1 ýýM MeHg treatment for 1h on astrocytic ýýýý(m) and partially reversed the effect of 5 and 10 ýýM MeHg treatments for 1h on ýýýý(m). In addition, ebselen inhibited MeHg-induced phosphorylation of ERK (p<0.05) and blocked MeHg-induced activation of caspase-3 (p<0.05-0.01). These results are consistent with the hypothesis that MeHg exerts its toxic effects via oxidative stress and that the phosphorylation of ERK and the dissipation of the astrocytic mitochondrial membrane potential are involved in MeHg toxicity. In addition, the protective effects elicited by ebselen reinforce the idea that organic selenocompounds represent promising strategies to counteract MeHg-induced neurotoxicity.

PubMed ID: 21300091 Exiting the NIEHS site

MeSH Terms: Analysis of Variance; Animals; Animals, Newborn; Antioxidants/pharmacology*; Astrocytes/drug effects*; Astrocytes/metabolism; Astrocytes/pathology; Azoles/pharmacology*; Blotting, Western; Caspase 3/metabolism; Cells, Cultured; Cytoprotection; Dose-Response Relationship, Drug; Environmental Pollutants/toxicity*; Extracellular Signal-Regulated MAP Kinases/metabolism; Glutamine/metabolism; Membrane Potential, Mitochondrial/drug effects; Mercury Poisoning, Nervous System/etiology*; Mercury Poisoning, Nervous System/metabolism; Mercury Poisoning, Nervous System/pathology; Methylmercury Compounds/toxicity*; Microscopy, Fluorescence; Mitochondria/drug effects; Mitochondria/metabolism; Neuroprotective Agents/pharmacology*; Organoselenium Compounds/pharmacology*; Oxidative Stress/drug effects*; Phosphorylation; Rats; Rats, Sprague-Dawley; Time Factors

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