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Rethinking treatment of mercury poisoning: the roles of selenium, acetylcysteine, and thiol chelators in the treatment of mercury poisoning: a narrative review

Henry A. Spiller, Hannah L. Hays, Marcel J. Casavant

2021Toxicology Communications30 citationsDOIOpen Access PDF

Abstract

AbstractWe reevaluate the treatment of mercury poisoning, incorporating recent advances in understanding of mercury toxicity and the mercury:selenium interaction. This review focuses on: 1) the role, limitations and benefits of chelation (Unithiol, succimer and N-Acetylcysteine); 2) the role of selenium supplementation; and 3) how the different forms of mercury are impacted by use of chelation and selenium. Unithiol and succimer produce increases in urinary excretion of mercury and to a lesser degree blood and total body mercury. The primary role of N-acetylcysteine is increasing renal mercury excretion, similar to the thiol-chelators. Additional unique features of acetylcysteine include increased efflux of methylmercury from the brain, and reduced oxidative stress via increased glutathione production. The role of selenium includes: 1) restoration of selenoprotein activity, 2) protection against mitochondrial injury and DNA damage, 3) demethylation of methylmercury, 4) sequestering of mercury via Hg:Se complexes, and 5) redistribution of Hg inside organisms. Selenium may increase blood Hg, via a “sink” effect, causing a redistribution of mercury away from the brain. A combined approach for mercury poisoning treatment was developed focusing on restoration of selenoprotein function, reduction of oxidative stress and increased mercury elimination.

Topics & Concepts

Mercury (programming language)ChemistrySeleniumMethylmercuryMercury poisoningSelenoproteinThiolEnvironmental chemistryChelation therapyAcetylcysteineOxidative stressGlutathioneChelationToxicityBiochemistryAntioxidantGlutathione peroxidaseInorganic chemistryEnzymeOrganic chemistryComputer scienceProgramming languageMercury impact and mitigation studiesHeavy Metal Exposure and ToxicitySelenium in Biological Systems