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Publication Detail

Title: Oxidative stress in MeHg-induced neurotoxicity.

Authors: Farina, Marcelo; Aschner, Michael; Rocha, Joao B T

Published In Toxicol Appl Pharmacol, (2011 Nov 1)

Abstract: Methylmercury (MeHg) is an environmental toxicant that leads to long-lasting neurological and developmental deficits in animals and humans. Although the molecular mechanisms mediating MeHg-induced neurotoxicity are not completely understood, several lines of evidence indicate that oxidative stress represents a critical event related to the neurotoxic effects elicited by this toxicant. The objective of this review is to summarize and discuss data from experimental and epidemiological studies that have been important in clarifying the molecular events which mediate MeHg-induced oxidative damage and, consequently, toxicity. Although unanswered questions remain, the electrophilic properties of MeHg and its ability to oxidize thiols have been reported to play decisive roles to the oxidative consequences observed after MeHg exposure. However, a close examination of the relationship between low levels of MeHg necessary to induce oxidative stress and the high amounts of sulfhydryl-containing antioxidants in mammalian cells (e.g., glutathione) have led to the hypothesis that nucleophilic groups with extremely high affinities for MeHg (e.g., selenols) might represent primary targets in MeHg-induced oxidative stress. Indeed, the inhibition of antioxidant selenoproteins during MeHg poisoning in experimental animals has corroborated this hypothesis. The levels of different reactive species (superoxide anion, hydrogen peroxide and nitric oxide) have been reported to be increased in MeHg-exposed systems, and the mechanisms concerning these increments seem to involve a complex sequence of cascading molecular events, such as mitochondrial dysfunction, excitotoxicity, intracellular calcium dyshomeostasis and decreased antioxidant capacity. This review also discusses potential therapeutic strategies to counteract MeHg-induced toxicity and oxidative stress, emphasizing the use of organic selenocompounds, which generally present higher affinity for MeHg when compared to the classically studied agents.

PubMed ID: 21601588 Exiting the NIEHS site

MeSH Terms: Animals; Antioxidants/pharmacology; Humans; Hydrogen Peroxide/metabolism; Lipid Peroxidation/drug effects; Methylmercury Compounds/toxicity*; Neuroprotective Agents/pharmacology; Neurotoxicity Syndromes/etiology*; Neurotoxicity Syndromes/metabolism; Nitric Oxide/metabolism; Oxidation-Reduction/drug effects; Oxidative Stress/drug effects*; Reactive Oxygen Species/metabolism; Superoxides/metabolism

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