Structural Basis of the Antagonism between Inorganic Mercury and Selenium in Mammals

Gailer, Jürgen; George, Graham N.; Pickering, Ingrid J.; Madden, Sean; Prince, Roger C.; Yu, Eileen Y.; Denton, M. Bonner; Younis, Husam S.; Aposhian, H. Vasken

doi:10.1021/tx000050h

Cited by 159 publications

(135 citation statements)

References 35 publications

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“…Many studies have been carried out to examine the role of selenium in the detoxification of mercury 20) . Although the complete mechanism of mercury-selenium interaction is still unresolved, there is evidence that selenium in plasma forms a complex with mercury, which then binds to selenoprotein P 21,24) . Formation of mercury-selenium complex with selenoprotein P causes redistribution of mercury in the organism.…”

Section: Discussionmentioning

confidence: 99%

“…Besides, the ability of selenium to reduce mercury toxicity has been extensively investigated 20,21) . Most studies have evaluated the effects of the inorganic selenium compound (sodium selenite) on mercury toxicity 9,11,[22][23][24][25] . In the presence of selenium, the accumulation of mercury in the target organ kidney is reported to be reduced, but body retention of mercury on the whole is increased, especially in the liver 20) .…”

Section: Introductionmentioning

confidence: 99%

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Role of Selenium in Mercury Intoxication in Mice

Agarwal

Behari

2007

Ind Health

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Studies were conducted to examine the effect of pre and post-treatment of selenium in mercury intoxication (20 µ µ µ µ µmole/ kg b.w. each given intraperitoneally) in mice in terms of lipid peroxidation (LPO), glutathione (GSH) content, activities of superoxide dismutase (SOD), glutathione peroxidase (GPx), catalase (CAT) and mercury concentration in liver, kidney and brain. No significant alteration was observed in all the organs examined after mercury or selenium treatment in LPO and GSH but administration of selenium (pre and post) resulted in an increase in the level of LPO and GSH. The activity of SOD was depleted in liver and kidney while that of GPx was lowered in liver of mercury exposed animals. Selenium administration resulted in restoration of the depletion of these enzymatic activities. The activity of CAT in liver and brain was enhanced both in mercury and selenium treated animals. Administration of selenium significantly arrested enhanced CAT activity. Kidney showed the highest mercury concentration among the organs examined. Administration of selenium resulted in further enhancement of mercury concentration in the tissues. An increase in selenium level in liver was observed after mercury treatment, which was also restored by mercury selenium co-administration. Our results indicate that the prooxidant effect of selenium was greater by its pretreatment.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Role of Selenium in Mercury Intoxication in Mice

Agarwal

Behari

2007

Ind Health

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“…Such mixtures can cause unexpected effects leading to potential interactions among toxicants that result in additive, antagonistic, or potentiation effects. Selenium (Se) and mercury (Hg) were chosen for study in part because of the well documented antagonistic relationships between Se and Hg in fish (Ganther et al 1972), birds (Welsh and Soares 1976), and mammals (Gailer et al 2000). An additive relationship occurs when the toxicity of the mixture can be predicted from the dose-response curve for each component, assuming that each component acts independently and has a different mode of toxic action (Bliss 1939).…”

mentioning

confidence: 99%

“…The alleviation of inorganic Hg toxicity by Se was reported as early as 1967, and the chemical mechanism of antagonism between sodium selenite and mercuric chloride has been described in mammalian tissue (Gailer et al 2000). The mechanism consists of selenite being taken up by erythrocytes and reduced and expelled as selenide, which then reacts with albumin-bound mercuric Hg to form an Hg-Se-S species that binds to selenoprotein P. The first report of the interaction between organic Hg (MeHg) and Se was by Ganther et al (1972), and it clearly showed the alleviating affects of sodium selenite on MeHginduced toxicity in rats, although the mechanism is not known.…”

mentioning

confidence: 99%

Individual and Joint Actions of Selenate and Methylmercury on the Development and Survival of Insect Detritivore Megaselia scalaris (Diptera: Phoridae)

Jensen

Johnson

Trumble

2006

Arch Environ Contam Toxicol

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Abstract. Despite the important roles played by insects in most ecosystems, surprisingly little is known about how anthropogenic pollutants or their mixtures interact to affect insect populations. The independent and joint actions of selenate and methylmercury on a ubiquitous insect detritivore, Megaselia scalaris (Loew), were determined in this study. Ovipositing females did not distinguish between untreated food sources and those contaminated with toxic concentrations of selenate, methylmercury, or both chemicals in combination. Even at the highest concentrations of pollutants, no negative effects were observed for the egg stage. However, larval survival was significantly decreased and development significantly prolonged by selenate and methylmercury individually at low or intermediate ecologically relevant treatment levels. Potentiation was strongly evident because mixtures containing concentrations as little as only 1% of the respective individual median lethal tolerances (LC 50 s) caused significantly more mortality and delayed larval development than would be expected from the responses selenate and methylmercury elicit individually. However, survival and pupal development was not affected at any rate tested. Female fecundity was significantly decreased by methylmercury but not by selenate or mixture treatments. The relative toxicity to M. scalaris of each of the individual and joint treatments was selenate (LC 50 = 260 lg/g) < methylmercury (LC 50 = 22 lg/g) < the mixture at approximately 5% of the LC 50 concentration of each of the components (12 lg/g selenate plus 1.0 lg/g methylmercury). The increased mortality and delayed larval development within sites contaminated by selenate, methylmercury, or combination of the two have substantial implications for the ecology, population dynamics, and sustainability of M. scalaris populations. If these results can be extrapolated to other arthropod detritivores, ecosystem food-web function may be substantially affected.As a class, insects dominate the world in which we live. More than 70% of all known species are insects, and

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“…They also describe and discuss the relationships between mercury and selenium species in the tissues. Further studies are required to improve our understanding of the interactions between mercury and selenium described by Gailer et al (2000).…”

Section: Mining and Pollution: Effects On Biotamentioning

confidence: 99%