The roles of serum selenium and selenoproteins on mercury toxicity in environmental and occupational exposure.Many studies have found that mercury (Hg) exposure is associated with selenium selenium (səlē`nēəm), nonmetallic chemical element; symbol Se; at. no. 34; at. wt. 78.96; m.p. 217°C;; b.p. about 685°C;; sp. gr. 4.81 at 20°C;; valence −2, +4, or +6. (Se) accumulation in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. . However, human studies are limited. To study the interaction between Se and Hg, we investigated the total Se and Hg concentrations in body fluids and serum Se-containing proteins in individuals exposed to high concentrations of Hg. Our objective was to elucidate the possible roles of serum Se and selenoproteins in transporting and binding Hg in human populations. We collected data from 72 subjects: 35 had very low Hg exposure as evidenced by mean Hg concentrations of 0.91 and 1.25 ng/mL measured in serum and urine, respectively; 37 had high exposure (mean Hg concentrations of 38.5 and 86.8 hg/mL measured in serum and urine, respectively). An association between Se and Hg was found in urine (r = 0.625; p < 0.001) but not in serum. Hg exposure may affect Se concentrations and selenoprotein distribution in human serum. Expression of both selenoprotein P and glutathione peroxidase (GSH-Px) was greatly increased in Hg miners. These increases were accompanied by devated Se concentrations in serum. In addition, selenoprotein P bound more Hg at higher Hg exposure concentrations. Biochemical observations revealed that both GSH-Px activity and malondialdehyde concentrations increased in serum of the Hg-exposed group. This study aids in the understanding of the interaction between Se and Hg. Selenoproteins play two important roles in protecting against Hg toxicity. First, they may bind more Hg through their highly reactive selenol group, and second, their antioxidative properties help eliminate the reactive oxygen species reactive oxygen species, n molecules and ions of oxygen that have an unpaired electron, thus rendering them extremely reactive. Many cellular structures are susceptible to attack by ROS contributing to cancer, heart disease, and cerebrovascular disease. induced by Hg in vivo. Key words: antagonism, Hg-exposed subjects, mercury, selenium, selenoproteins, serum. doi:10.1289/ehp.7861 available via http://dx.doi.org/[Online 18 January 2006] ********** Mercury (Hg) is currently one of the most prevalent pollutants in the environment. It is highly bioconcentrated through the food chain and damages mainly nerves and immune systems. It is harmful both to humans and animals (Clarkson 1997). Selenium (Se) is an essential micronutrient mi·cro·nu·tri·ent n. A substance, such as a vitamin or mineral, that is essential in minute amounts for the proper growth and metabolism of a living organism. with important biological and biochemical functions in organisms because of its unique antioxidant antioxidant, substance that prevents or slows the breakdown of another substance by oxygen. Synthetic and natural antioxidants are used to slow the deterioration of gasoline and rubber, and such antioxidants as vitamin C (ascorbic acid), butylated hydroxytoluene properties and its ability to regulate thyroid gland metabolism. It is well known that Se is an antagonist that moderates the toxic effects of many heavy metals heavy metals, n.pl metallic compounds, such as aluminum, arsenic, cadmium, lead, mercury, and nickel. Exposure to these metals has been linked to immune, kidney, and neurotic disorders. such as arsenic, cadmium, Hg, and lead in organisms. Although Se and Hg co-accumulation in humans and other mammals is well known (Falnoga et al. 2000; Kosta et al. 1975), the mechanism of interaction between Se and Hg is still not understood. It is thought to be attributed to the formation of biologically inert Hg-Se compounds. Burk et al. (1974) suggested that the Hg-Se-protein complex plays a role in restraining the acute toxicity acute toxicity Pharmacology Illness caused by a single exposure to a toxic substance of inorganic Hg by binding Hg to prevent it from reaching the target tissues. Recent in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. studies suggest that Se and Hg could form Hg-Se complexes in a reducing environment and that this 1:1 complex is then bound with plasma selenoprotein P (SEP 1. SEP - Someone Else's Problem. 2. (tool) SEP - A SASD tool from IDE. ) (Suzuki et al. 1998; Yoneda and Suzuki 1997). In mammalian serum, Se is incorporated mainly into three proteins--SeP, extracellular glutathione peroxidase (GSH-Px), and albumin. The first two are well-known selenoproteins. Naturally occurring selenoproteins such as thioredoxin reductases, GSH-Px, SeP, iodothyronine deiodinase types I, II, and III, and others with specific functions have also been identified (Kryukov et al. 2003). Among them, SeP is a unique selenoprotein and contains several selenocysteine (Sec) and cysteine cysteine (sĭs`tēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the l-stereoisomer participates in the biosynthesis of mammalian protein. (Cys) residues, indicating that it is capable of transporting Se and binding heavy metals. The sequence of the cloned DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. shows that SeP contains 10 Sec groups encoded by UGA UGA opal codon, one of the three stop codons. stop codons in the open reading frame of its mRNA (Burk et al. 2001; Ma et al. 2002). But purified SeP from humans and rats was recently characterized by immunoaffinity chromatography and was found to contain 7-8 Se atoms per Sec molecule as Se attached to a Cys base. On the basis of in vitro studies (Suzuki et al. 1998), it has been suggested that Se exhibits protective effects against Hg toxicity in humans because of formation of an Hg-Se complex bound to SeP in blood; however, this has not been demonstrated in vivo in human populations. Thus, our aim in this study was to evaluate the relationship between Se or selenoproteins and Hg exposure in humans. First, we compared Se and Hg concentrations in serum and urine from highly Hg-exposed and control subjects to determine whether Hg exposure affects the distribution and absorption of Se. Second, we investigated the role of plasma selenoproteins in transporting or accumulating Hg, and finally, oxidative stress oxidative stress, n an imbalance of the prooxidant antioxidant ratio in which too few antioxidants are produced or ingested or too many oxidizing agents are produced. as evidenced by malondialdehyde (MDA (1) (Monochrome Display Adapter) The first IBM PC monochrome video display standard for text. Due to its lack of graphics, MDA cards were often replaced with Hercules cards, which provided both text and graphics. See PC display modes and Hercules Graphics. ) concentration and GSH-Px activity in the Hg-exposed population. We also attempted to elucidate the antagonism between Hg and Se. Materials and Methods Collection of samples. We selected subjects from the town of Wanshan in the Guizhou Province in southwest China, which is representative of an Hg-contaminated region. Present global Hg emission into the atmosphere is estimated to be 5,000 tonnes per year (Chen et al. 2005). The environment polluted by Hg in Guizhou Province is typical of other areas in China, where Hg comes from several sources: Hg mining and ore processing, coal combustion for power production, and chloralkali industries. The main source of environmental Hg pollution in Wanshan is the emission of elemental Hg vapor from an Hg-mining plant that had produced large quantities of Hg for more than 50 years. The plant was dosed in 2001. In 2000 and 2003, serum and urine samples were collected from 37 individuals (including 25 miners and 12 local residents) from a heavily Hg-contaminated area. These individuals are the exposed group. Samples were also collected from 35 residents from a noncontaminated area. These individuals form the control group. Between the groups there were no differences in sex, age (28-66 years of age), body mass index, and physical activity. All participants volunteered and agreed to the test. This study was approved and supported by the local Committee of Human Subjects and the local hospital. Detailed handling of samples was performed as described elsewhere (Chen et al. 2005). Chemicals and equipment. Reagents and solvents were at least of analytical grade. The Milli-Q system (Millipore, Bedford, MA, USA) was used to prepare ultrapure water. We used a dual-channel hydride generation-atomic fluorescence spectrometer (HG-AFS) with a quartz furnace atomizer atomizer /at·om·iz·er/ (at´om-i?zer) nebulizer. at·om·iz·er n. A device used to reduce liquid medication to a fine spray or aerosol. (model AFS-820; Beijing Little Swan Co., Beijing, China) to determine Hg and Se concentrations. Measurement of Hg exposure. Total Hg concentrations in urine and serum samples were determined by HG-AFS. Detailed procedures have been described elsewhere using a sodium tetrahydridoborate (NaB[H.sub.4])-acid system to generate Hg vapor for AFS A distributed file system for large, widely dispersed Unix and Windows networks from Transarc Corporation, now part of IBM. It is noted for its ease of administration and expandability and stems from Carnegie-Mellon's Andrew File System. AFS - Andrew File System (Zhao et al. 2004). The detection limit was 0.05 [micro]g/L Hg. Hg-certified NIST (National Institute of Standards & Technology, Washington, DC, www.nist.gov) The standards-defining agency of the U.S. government, formerly the National Bureau of Standards. It is one of three agencies that fall under the Technology Administration (www.technology. (National Institute of Standards and Technology National Institute of Standards and Technology, governmental agency within the U.S. Dept. of Commerce with the mission of "working with industry to develop and apply technology, measurements, and standards" in the national interest. , Gaithersburg, MD, USA) bovine liver 1577a, IAEA IAEA International Atomic Energy Agency. horse kidney H-8 (International Agency Atomic Energy Agency, Vienna, Austria), and Chinese bovine liver GBW GBW Guild of Book Workers GBW Gain Bandwidth GBW Green Bay and Western Railroad GBW Guaranteed Bandwidth GBW Green Bay & Western Railroad (Green Bay, WI) GBW Good, Bad, Whatever 080193 (National Research Center for Certified Reference Materials Certified Reference Materials (CRMs) are ‘controls’ used to check the quality and traceability of products. The demand for reference materials is growing rapidly. , Beijing, China) were analyzed for Hg as quality control standards, with analytical errors less than [+ or -] 10%. Determination of Se concentration. We measured Se using HG-AFS according to detailed procedures described elsewhere (Chen et al. 1999). Briefly, samples were digested with a mixture of ultrapure nitric acid nitric acid, chemical compound, HNO3, colorless, highly corrosive, poisonous liquid that gives off choking red or yellow fumes in moist air. It is miscible with water in all proportions. and perchloric acid perchloric acid /per·chlor·ic ac·id/ (per-klor´ik) a colorless volatile liquid, HClO4, which can cause powerful explosions in the presence of organic matter or anything reducible. per·chlo·ric acid n. (3:1) at 100[degrees]C for 2-3 hr. One milliliter milliliter /mil·li·li·ter/ (mL) (-le?ter) one thousandth (10-3) of a liter. mil·li·li·ter n. Abbr. of 5 mol/L HCl was added to the clear digested sample solution for an additional 10 min to reduce the existing selenate sel·e·nate n. A salt or ester of selenic acid. [selen(ic acid) + -ate2.] (VI) to selenite sel·e·nite n. Gypsum in the form of colorless clear crystals. [Latin sel  n (IV).
The solutions were then diluted to 15 mL, introduced into an
NaB[H.sub.4]-acid system to generate hydrogen selenide, and subjected to
HG-AFS. Quality control standards were analyzed as described in
"Measurement of Hg exposure."Assay of GSH-Px activity and MDA. GSH-Px activity was measured according to the method of Hafeman et al. (1974). One unit was defined as a decrease of the reduced log (GSH GSH reduced glutathione. GSH reduced glutathione. ) of 1 [micro]mol/min at 37[degrees]C, whereas heated samples with inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. enzymes were used as a nonenzymatic control to eliminate interference from endogenous reduced GSH. Total protein concentration in human serum was quantitatively determined by the Bradford method using bovine serum albumin serum albumin n. See seralbumin. as a standard protein (Bradford 1976). We used the MDA--thiobarbituric acid (TBA TBA See: To be announced ) assay, which is used widely in studies of lipid peroxidation (Dahle et al. 1962). Serum (0.5 mL) from each subject was mixed with 1 mL of 10% (wt/vol) trichloroacetic acid trichloroacetic acid /tri·chlo·ro·ace·tic ac·id/ (tri-klor?o-ah-se´tik) an extremely caustic acid, used in clinical chemistry to precipitate proteins and applied topically in chemabrasion and to remove warts. , 0.8 mL distilled water, and 1 mL of 0.5% (wt/vol) TBA. After vigorous stirring, mixtures were incubated for 60 min in boiling water. After centrifugation Centrifugation A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal at 6,000xg for 15 min, absorbance absorbance /ab·sor·bance/ (-sor´bans) 1. in analytical chemistry, a measure of the light that a solution does not transmit compared to a pure solution. Symbol . 2. of the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. at 532 nm was measured and corrected for unspecific Adj. 1. unspecific - not detailed or specific; "a broad rule"; "the broad outlines of the plan"; "felt an unspecific dread" broad general - applying to all or most members of a category or group; "the general public"; "general assistance"; "a general rule"; turbidity turbidity /tur·bid·i·ty/ (ter-bid´i-te) cloudiness; disturbance of solids (sediment) in a solution, so that it is not clear.tur´bid Turbidity The cloudiness or lack of transparency of a solution. by subtracting the absorbance at 580 nm. The blank was corrected by addition of a 0.5% TBA solution in 10% trichloroacetic acid. We estimated the MDA concentration of each sample using a five-point standard curve with 1,1,3,3-tetraethoxypropane as an MDA standard. Separation of Se-containing proteins. We separated Se-containing proteins using conventional chromatographic chro·mat·o·graph n. An instrument that produces a chromatogram. tr.v. chro·mat·o·graphed, chro·mat·o·graph·ing, chro·mat·o·graphs To separate and analyze by chromatography. purification methods as described elsewhere (Deagen et al. 1993; Harrison et al. 1996; Mostert et al. 1998) with slight modification. Briefly, Se-containing proteins were purified using a tandem column system of two affinity chromatographic procedures. Serum (4 mL) was diluted with 4 mL equilibrium buffer of 0.02 mol/L ammonium acetate (pH 6.8), which was applied to a heparin-Sepharose column (1.0 x 10 [cm.sup.2]; Pharmacia, Uppsala, Sweden). The eluate eluate /el·u·ate/ (el´u-at) the substance separated out by, or the product of, elution or elutriation. el·u·ate n. The solution of solvent and dissolved matter resulting from elution. was continuously passed through a blue-Sepharose column (1.0 x 10 [cm.sup.2]; Pharmacia). The eluate from the blue-Sepharose column contained the GSH-Px and was labeled fraction C. The fraction containing SeP (fraction A) was eluted from the heparin-Sepharose column with 500 U/mL heparin in equilibrium buffer. The fraction containing albumin (fraction B) was eluted from the blue-Sepharose column with 1.4 mol/L NaCl in equilibrium buffer at a flow rate of 0.5 mL/min. Protein profiles were monitored at 280 nm. Se and Hg concentrations in these three fractions and control buffer were determined by HG-AFS. Each fraction was then separated using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis. ) as described elsewhere (Gao et al. 2003; Laemmli 1970). Statistical analysis. Student's t-test and multigroup comparisons of variables were carried out with one-way analysis of variance and the Statistical Package of Social Science (SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. ) for Windows (version 9.05; SSPS SSPS Holy Spirit Missionary Sisters (religious order) SSPS Solid State Protection System SSPS Social Service Payment System SSPS Southern Sudan Police Service SSPS Speed Sensitive Power-assisted Steering Inc., Chicago, IL, USA). Reported p-values were determined using a two-tailed t-test, p-Values < 0.05 were considered statistically significant. For bivariate bi·var·i·ate adj. Mathematics Having two variables: bivariate binomial distribution. Adj. 1. analyses, we used linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. . Results and Discussion Se and Hg in blood and urine. Se and Hg concentrations in serum and urine samples analyzed by HG-AFS are shown in Table 1. The mean Hg concentration in serum of the exposed group was almost 40 times that of the control group, which was in agreement with the average background concentration of Hg. In urine of the exposed group, the mean Hg concentration was almost 75 times that of the control group. Among the exposed group, Hg concentrations in 12 subjects were extremely high, ranging from 67.5 to 210.3 ng/mL in serum and from 87.2 to 205.2 ng/mL in urine. The miners suffered typical symptoms: digestion dysfunction, hypomnesia, sleeping problems, tremor, and weight loss. Although serum Se concentrations were significantly higher in the Hg-exposed group, the Se concentration in urine was only slightly higher and without statistical significance (Table 1). The molar ratio of Se to Hg was close to 1. The difference in the molar ratio between serum and urine concentrations of the Hg-exposed subjects was much greater than that in the control group. These results suggest that retention of Se increased in Hg-exposed individuals. Total Hg concentrations in blood and hair are indicators of inhalation exposure to inorganic and methyl Hg vapor. In this study, we determined that exposure of local people and miners to Hg is due to not only inhalation of elemental Hg vapor but also to consumption of Hg-contaminated foodstuffs foodstuffs npl → comestibles mpl foodstuffs npl → denrées fpl alimentaires foodstuffs food npl → , which contained different Hg species. Even though the major source of Hg is elemental Hg, active transformation of inorganic Hg to organic Hg species (methyl Hg) was observed in water, sediment, and soil (Horvat et al. 2003). The average background concentration of Hg in urine has often been reported to be about 4 ng/mL in the general population, with an upper limit of about 20 [micro]g/L (Agency for Toxic Substances and Disease Registry The United States Agency for Toxic Substances and Disease Registry, (ATSDR) is an agency for the U.S. Department of Health and Human Services that is directed by a congressional mandate to perform specific functions concerning the effect on public health of hazardous 1999; Iyengar and Woittiez 1988; Tsuji et al. 2003; World Health Organization 1990, 1991), whereas the normal range in serum is 1-8 ng/mL (Brune et al. 1991). The geometric mean (mathematics) geometric mean - The Nth root of the product of N numbers. If each number in a list of numbers was replaced with their geometric mean, then multiplying them all together would still give the same result. concentrations of total blood Hg for women 16-49 years of age and children 1-5 years of age are 1.2 and 0.3 [micro]g/L, respectively (U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and 2001), which could be considered normal low levels for the general population. Thus, in the present study, the healthy control group from unknown contaminated areas also showed a normal Hg burden. However, the exposed group had high Hg concentrations, which was comparable with the data of the Mt. Diwata study in the Philippines (Drasch et al. 2001) and cases of Hg accidental poisoning (Hoeta and Lison 1997). Correlation analysis of Se and Hg. There is a strong correlation (r = 0.746, p < 0.001) between Hg concentrations in serum and in urine of the Hg-exposed subjects, but there is no correlation for Se (Figure 1). A strong positive correlation is observed between Se and Hg concentrations in urine (r = 0.625, p < 0.001) but not in serum (Figure 2). It is reasonable that Hg excretion in urine is positively correlated with serum Hg concentrations. If serum Se and Hg concentrations are affected by short-term exposure, urinary Se and Hg concentrations may more accurately reflect their metabolism and excretion. Their correlation supports the interaction of Se with Hg in vivo. The results of our present study also suggest that Hg could interfere with the metabolic process of Se. [FIGURES 1-2 OMITTED] An earlier study by Hol et al. (2001) showed that the median concentration of Se in blood (119.2 ng/mL) was statistically significantly lower in subjects claiming to have symptoms of Hg amalgam illness than in healthy subjects with Hg amalgam but who had no symptoms of illness (130.3 ng/mL). Many studies indicated that retention and redistribution of Hg in experimental animal and fish were induced by administration of Se compounds (Bierregaard et al. 1999; Seppanen et al. 1998). It appears that the co-accumulated Se could alleviate the harmful effects of Hg exposure. To our knowledge, the Se concentrations in individuals from the Wanshan area are not significantly higher than those in other areas (He 1996). Se concentrations in soil in the entire Guizhou Province range from 0.064 to 0.326 mg/kg, with an average of 0.369 mg/kg. In the Tongren District (including the Wanshan area), the Se content in soil of 0.15-0.20 mg/kg is considered relatively low (He 1996). The Se concentration in grain is slightly higher (unpublished data). No correlation between Hg and Se in rice has been found; therefore, Se probably does not play a role in Hg uptake and retention in rice grain (Horvat et al. 2003). Moreover, it is interesting to note that the average Hg concentrations in Guizhou fish liver and muscle samples are, respectively, 25 and 5 times those of Hg concentrations in samples from individuals exposed to low concentrations of Hg. Se content in both liver and muscle samples from fish showed no significant differences (Zhang et al. 2004). Zhao et al. (2004) found that Hg exposure in pigs causes redistribution and reaccumulation of Se and Hg in tissues and various corresponding organelles. The main sources of food for both the exposed and control groups are rice, fish, and vegetables. Therefore, Se intake in the exposed subjects may be only slightly different from those of normal controls. Nevertheless, our results suggest that the increased retention of Se was associated with elevated Hg burdens in the Hg-exposed subjects. It could be deduced and confirmed that Hg exposure affected bioavailability bioavailability /bio·avail·a·bil·i·ty/ (bi?o-ah-val?ah-bil´i-te) the degree to which a drug or other substance becomes available to the target tissue after administration. bi·o·a·vail·a·bil·i·ty n. and retention of Se in humans. Hg and selenoproteins in serum. Hg and Se concentrations in various protein fractions separated from serum by heparin- and blue-Sepharose affinity chromatography were analyzed by HG-AFS. Se concentrations associated with GSH-Px and SeP were 2 times higher in the Hg-exposed group than in the control group (Tables 2, 3). Thus, expression of both SeP and GSH-Px was highly up-regulated in Hg miners and was accompanyed by increased serum Se concentration. As shown in Figure 3, proteins of fractions A (SEP) and C (albumin) are almost purified because of the highly efficient effect of affinity chromatography. The band of fraction C showed a molecular weight of 66 kDa for albumin. The two major bands in fraction A are two isoforms of SeP with molecular weights of approximately 58 and 49 kDa. In fraction B, the staining gel indicated a number of protein bands. Therefore, affinity chromatography can give only an estimate of plasma Se in selenoproteins. [FIGURE 3 OMITTED] Although Se concentrations in serum of exposed and control groups are different, the fraction of Se entering SeP is approximately the same, ranging from 45 to 62% of total Se exposure, which is in agreement with other published data (Harrison et al. 1996; Plecko et al. 1999). The percentage of nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik) 1. not due to any single known cause. 2. not directed against a particular agent, but rather having a general effect. nonspecific 1. binding of Se with albumin decreased, and the percentage of Se bound to GSH-Px increased from 28.7 to 33%. The Sec residue in selenoproteins as GSH-Px and SeP is co-translationally incorporated via a predefined UGA codon codon: see nucleic acid. , which has a specific covalent co·va·lent adj. Of or relating to a chemical bond characterized by one or more pairs of shared electrons. binding capacity. The Se concentration in the albumin fraction was approximately the same regardless of total Se exposure, which suggests that the nonspecific Se-binding capacity of albumin is stable and the remaining Se goes into the selenoprotein pool. We found that Hg concentrations in various protein fractions of the control group were very low and close to the detection limit. We also found that a small fraction of Hg was bound to serum albumin (Table 3). Most Hg was present in the fractions containing SeP and GSH-Px. The SeP-containing fraction bound more Hg, whereas the Se:Hg molar ratio was much lower in the exposed group than in the control group (Table 2). These results indicate the strong interaction of SeP and Hg at high Hg exposure concentrations; at Hg exposures too low to affect the Se status, this interaction has not been reported (Falnoga et al. 2002). Other studies have found that pure SeP binds with Hg, but our results do not support this finding. Although SeP is the main protein found in fraction A, a minor protein impurity im·pu·ri·ty n. pl. im·pu·ri·ties 1. The quality or condition of being impure, especially: a. Contamination or pollution. b. Lack of consistency or homogeneity; adulteration. c. may be associated with Hg. Generally, the highly purified SeP was obtained using immobilized monoclonal antibodies (Himeno et al. 1996) or multistep separation involved in heparin-affinity, anion-exchange, and metal-chelate affinity chromatography (Mostert et al. 1998). The process, with high salt concentrations and metal-chelate agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. , may result in Hg desorption Desorption A process in which atomic and molecular species residing on the surface of a solid leave the surface and enter the surrounding gas or vacuum. from its binding proteins during the separation process. Monoclonal assays for SeP and GSH-Px in plasma are not commercially available, which makes them expensive to produce in the laboratory. This has hindered progress on the interaction of SeP and Hg. SeP is presumed to be involved in alleviating the toxicity of heavy metals (Whanger 2001) and it is known that SeP is preferentially absorbed by the brain but not by other organs in Se-deficient animals. Although Se counteracts the neurotoxicity neurotoxicity /neu·ro·tox·ic·i·ty/ (noor?o-tok-sis´it-e) the quality of exerting a destructive or poisonous effect upon nerve tissue. of Hg, cadmium, lead, and vanadium vanadium (vənā`dēəm), metallic chemical element; symbol V; at. no. 23; at. wt. 50.9415; m.p. about 1,890°C;; b.p. 3,380°C;; sp. gr. about 6 at 20°C;; valence +2, +3, +4, or +5. Vanadium is a soft, ductile, silver-grey metal. , the detoxification Detoxification Definition Detoxification is one of the more widely used treatments and concepts in alternative medicine. It is based on the principle that illnesses can be caused by the accumulation of toxic substances (toxins) in the body. mechanism is unknown. Results from animal studies have shown that Se reacts with Hg in the bloodstream by forming complexes (Yoneda and Suzuki 1997). SeP binds Hg and Se only when [Hg.sup.2+] and selenide Sel´e`nide n. 1. (Chem.) A binary compound of selenium, or a compound regarded as binary; as, ethyl selenide s>. are present simultaneously and does not bind [Hg.sup.2+] or selenide separately in plasma (Suzuki et al. 1998). The complex binds selectively to a plasma protein, SeP, to form an [[[(Hg-Se).sub.n]].sub.m]-SeP complex up to n = 100, m = 35 in vitro (Sasakura and Suzuki 1998; Suzuki et al. 1998). The results of our present study indicate that the percentage of Hg bound to SeP increases with increasing Hg concentrations in serum, which represented a metabolic process in humans. The cDNA sequence of SeP contains 10 Sec, 17 Cys, and 28 histidinyl residues, indicating that SeP is capable of binding a metal via these amino acids. The toxicity of Hg is associated with its reaction with sulfhydryl groups of Cys in proteins (e.g., metallothionein and a variety of enzymes) and thiol-containing small molecules such as Cys and reduced GSH in vivo. The selenol group shows even stronger affinity for Hg than for the thiol thiol: see mercaptan. group because the much lower p[K.sub.a] of Sec (~5.4) gives it a higher reactivity than Cys (~8.0). Therefore, the properties of SeP containing 6-10 Sec groups and the corresponding high reactivity of its selenol groups increase both the possibilty and capability of binding more Hg. Although albumin has more than 30 cysteinyl residues, its Hg-binding ability is limited, which is confirmed by our results. Thus, at very low Hg concentrations in serum, Hg may bind to a variety of different protein fractions, whereas the stronger competition and reactivity of the selenol group in selenoproteins explains why more Hg was observed in the SeP-containing fraction at higher Hg exposure concentrations. Oxidative status in serum. Activity of GSH-Px in serum of miners was significantly higher (p < 0.05) than that of the control group (84.6 [+ or -] 12.1 vs. 75.0 [+ or -] 14.1 U/mL/min). The lipid peroxidative product MDA increased significantly in the Hg-exposed group (7.12 [+ or -] 2.18 vs. 4.69 [+ or -] 1.55 nmol/mL, p < 0.05), as shown in Figure 4. The positive correlation between total Hg concentrations and MDA concentrations in serum was also observed in the present study (r = 0.568, p < 0.05). The oxygen-derived free radicals can induce the lipid peroxidation reaction of multiple-valent unsaturated fatty acids unsaturated fatty acids, n.pl the double- or triple-bonded fatty acids contained primarily in vegetable oils and fish, which remain liquid at room temperature; linked to a reduction in the risk of developing heart disease. in plasma, which ultimately produces lipid peroxidation products such as MDA. Therefore, the MDA concentrations reflect the degree of oxidative injury in vivo. Although the results of the present study suggest that oxidative damage existed in the Hg-exposed individuals, exposures to other environmental contaminants may also contribute to elevated MDA concentrations. [FIGURE 3 OMITTED] The antioxidative properties of selenoproteins have attracted increasing interest. Extracellular GSH-Px reduces hydrogen peroxide and t-butyl hydroperoxide and shows some activity against phospholipid phospholipid (fŏs'fōlĭp`ĭd), lipid that in its simplest form is composed of glycerol bonded to two fatty acids and a phosphate group. hydroperoxide. Although SeP reduces phospholipid hydroperoxide, it has no effect on hydrogen peroxide and t-butyl hydroperoxide. SeP is also reported to function as a peroxynitrite scavenger or cell survival factor in primary cultures of neurons (Yan and Barrett 1998). The imbalance of redox redox (rē`dŏks): see oxidation and reduction. status, especially profound oxidative DNA damage, was found among Hg-exposed individuals (Chen et al. 2005). In the present study the significantly elevated MDA in serum indicated oxidative stress induced by Hg exposure. However, the elevated antioxidant enzymes or proteins such as GSH-Px and SeP could eliminate the increased reactive oxidative species. 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Characterization of mammalian selenoproteomes. Science 300:1439-1443. Laemmli UK. 1970. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 227(259):680-685. Ma S, Hill KE, Caprioli RM, Burk RF. 2002. Mass spectrometric characterization of full-length rat selenoprotein P and three isoforms shortened at the C terminus. Evidence that three UGA codons in the mRNA open reading frame have alternative functions of specifying selenocysteine insertion or translation termination. J Biol Chem 277(15):12749-12754. Mostert V, Lombeck I, Abel J. 1990. A novel method for the purification of selenoprotein P from human plasma. Arch Biochem Biophys 387:326-330. Plecko S, Nordmann M, Rukgauer M, Kruse-Jarres JD. 1999. Determination and distribution of human plasma selenoproteins. Fresenius J Anal Chem 363:517-619. Sasakura C, Suzuki KT. 1998. Biological interaction between transition metals (Ag, Cd and Hg), selenide/sulfide and selenoprotein P. J Inorg Biochem 71(3-4):159-162. Seppanen K, Laatikainen R, Salonen JT, Kantole M, Lotjonen S, Harri M, et al. 1998. Mercury-binding capacity of organic and inorganic selenium in rat blood and liver. Biol Trace Elem Res 65(3):197-210. Suzuki KT, Sasakura C, Yoneda S. 1998. Binding sites for the (Hg-Se) complex on selenoprotein P. Biochem Biophys Acta 1429:102-112. Tsuji JS, Williams PR, Edwards MR, Allamneni KP, Kelsh MA, Paustenbech DJ, et al. 2003. Evaluation of mercury in urine as an indicator of exposure to low levels of mercury vapor. Environ Health Perspect 111(4):623-630. U.S. Environmental Protection Agency. 2001. Blood and hair mercury levels in young children and women of childbearing age--United States 1999. JAMA JAMA abbr. Journal of the American Medical Association 285:1436-1437. Whanger PD. 2001. Selenium and the brain: a review. Nutr Neurosci 4:81-97. World Health Organization. 1990. Environmental Health Criteria 101: Methyl Mercury. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. :World Health Organization. World Health Organization. 1991. Environmental Health Criteria 118: Inorganic Mercury. Geneva:World Health Organization. Yah J, Barrett JN. 1998. Purification from bovine serum of a survival-promoting factor for cultured central neurons and its identification as selenoprotein-P. J Neurosci 18(21):8682-8691. Yoneda S, Suzuki KT. 1997. Detoxification of mercury by selenium by binding of equimolar e·qui·mo·lar adj. Chemistry Having an equal number of moles. Hg-Se complex to a specific plasma protein. Toxicol Appl Pharmacol 143:274-280. Zhang PQ, Chen CY, Zhao JJ, Li B, Qu LY, Chai ZF. 2004. Correlation of mercury selenium and other elements in the tissues of fishes from the regions at different mercury exposure level [in Chinese]. Environ Sci 25(4):159-165. Zhao JJ, Chen CY, Zhang PQ, Chai ZF, Qu LY, Li M. 2004. Comparison of selenium and mercury distribution in porcine porcine /por·cine/ (por´sin) pertaining to swine. porcine pertaining to pig. See also hog (1), swine. porcine circovirus 1 a nonpathogenic virus. tissues and their subcellular fractions studied by NAA NAA Nomina Anatomica Avium. and HG-AFS. J Radioanal Nucl Chem 259:459-463. This article is part of the mini-monograph "Health Effects of Mercury." Address correspondence to C. Chen, Laboratory of Nuclear Analytical Techniques, Institute of High 0Energy Physics, Chinese Academy of Sciences The Chinese Academy of Sciences (CAS) (Simplified Chinese: 中国科学院; Pinyin: Zhōngguó Kēxuéyuàn), formerly known as Academia Sinica , P.O. Box 918, Beijing 100049, P.R. China. Telephone: 00-86-10-88233212. Fax: 00-86-10-88233186. E-mail: chunying.chen@mail.ihep.ac.cn This work was supported by the National Natural Science Foundation of China (20071032 and major project 10490180) and the Chinese Academy of Sciences (grant KJCX2-N101). The authors declare they have no competing financial interests. Received 22 November 2004; accepted 20 April 2005. Chunying Chen, (1) Hongwei Yu, (1) Jiujiang Zhao, (1) Bai Li, (1) Liya Qu, (2) Shuiping Liu, (3) Peiqun Zhang, (1) and Zhifang Chai (1) (1) Laboratory of Nuclear Analytical Techniques and Laboratory for Nanoscale Materials and Related Bio-Environmental Sciences, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing, People's Republic of China; (2) Guizhou Research and Designing Institute of Environmental Sciences, Guiyang, People's Republic of China; (3) Wanshan Office of Environmental Protection, Guizhou, People's Republic of China
Table 1. Se and Hg concentrations (ng/mL) in serum and urine samples
from Hg-exposed and control groups.
Hg-exposed group (n = 37)
Samples Se H9
Serum
Mean [+ or -] SE 100.9 [+ or -] 87.6 38.5 [+ or -] 61.5
t-Test p < 0.01 p < 0.01
Range 13.3-220.5 1.85-210.3
Molar ratio (Se:Hg) 6.7 [+ or -] 3.6
Urine
Mean [+ or -] SE 24.7 [+ or -] 16.5 86.8 [+ or -] 65.2
t-Test p > 0.05 p < 0.01
Range 8.78-76.3 11.0-205.2
Molar ratio (Se:Hg) 0.7 [+ or -] 0.6
Control group (n = 35)
Samples Se Hg
Serum
Mean [+ or -] SE 67.2 [+ or -] 18.2 0.91 [+ or -] 0.28
t-Test
Range 40.4-84.8 0.41-1.20
Molar ratio (Se:Hg) 175.5 [+ or -] 74.6
Urine
Mean [+ or -] SE 22.2 [+ or -] 10.1 1.25 [+ or -] 1.5
t-Test
Range 10.2-34.5 0.3-2.4
Molar ratio (Se:Hg) 45.3 [+ or -] 17.2
Table 2. Se and Hg concentrations (ng/mL serum [+ or -] SD, n=12) in
SeP (fraction A) after affinity chromatographic separation of serum
from Hg-exposed and control groups.
Percent Se
Subjects Se in SeP in total serum
Hg exposed 59.7 [+ or -] 11.2 55.2 [+ or -] 6.4
Control 31.5 [+ or -] 10.2 52.5 [+ or -] 7.9
t-Test p < 0.05 p > 0.05
Percent Hg
Subjects Hg in SeP in total serum
Hg exposed 19.4 [+ or -] 9.2 33.4 [+ or -] 15.9
Control 0.15 [+ or -] 0.12 15.4 [+ or -] 8.2
t-Test p < 0.05 p < 0.05
Molar ratio
Subjects (Se:Hg) in SeP
Hg exposed 7.8 [+ or -] 3.1
Control 535 [+ or -] 216
t-Test p < 0.05
Table 3. Se and Hg concentrations (ng/mL serum [+ or -] SD, n = 12) in
Se-containing proteins after affinity chromatographic separation of
serum from Hg-exposed and control groups.
Hg-exposed group
Fractions Se Hg
Fraction B (mainly albumin) 12.7 [+ or -] 5.8 2.2 [+ or -] 1.2
% in total serum content 11.7 6.6
Molar ratio (Se:Hg) 14.7
Fraction C (containing GSH-
Px) 35.7 [+ or -] 12.7 45.8 [+ or -] 15.4
% in total serum content 33.1 60.5
Molar ratio (Se:Hg) 1.98
Control
Fractions Se Hg
Fraction B (mainly albumin) 11.3 [+ or -] 4.9 0.24 [+ or -] 0.18
(p> 0 .05)
% in total serum content 18.8 24.7
Molar ratio (Se:Hg) 119
Fraction C (containing GSH-
Px) 17.2 [+ or -] 7.8 0.58 [+ or -] 0.25
(p < 0.05)
% in total serum content 28.7 59.8
Molar ratio (Se:Hg) 75.5
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