ABSTRACT
The allele and genotype frequencies of the polymorphic loci CYP1A1 (rs1048943), GSTP1 (rs1695 and rs1138272), GSTM1, and GSTT1 genes were studied in 517 men: in 389 accumulated mercury pollution liquidators (207 firefighters of the Ministry of the Russian Federation for Civil Defence, Emergencies and Elimination of Consequences of Natural Disasters and 182 employees of the Federal Environmental Operator) and 128 former workers (82 patients in the delayed period of chronic mercury intoxication and 46 individuals contacted with mercury and had no chronic mercury intoxication). We found differences in the frequencies of AA and AG genotypes in groups of former workers (χ2=6.96, p=0.008) for the polymorphic locus rs1048943, while the AG-CYP1A1 genotype was characterized by a 5.5-fold decrease in the odds ratio for the development of chronic mercury intoxication (OR=0.18, p=0.0041). An unfavorable combination of genotypes of the studied polymorphic loci increases the risk of undesirable health effects.
Subject(s)
Cytochrome P-450 CYP1A1 , Glutathione Transferase , Mercury , Occupational Exposure , Xenobiotics , Humans , Male , Glutathione Transferase/genetics , Glutathione Transferase/metabolism , Mercury/toxicity , Occupational Exposure/adverse effects , Adult , Xenobiotics/metabolism , Cytochrome P-450 CYP1A1/genetics , Glutathione S-Transferase pi/genetics , Middle Aged , Mercury Poisoning/genetics , Gene Frequency/genetics , Biotransformation/genetics , Genotype , Polymorphism, Single Nucleotide/genetics , Russia , Firefighters , AllelesABSTRACT
We analyzed the relationship between polymorphic loci of CYP3A genes (CYP3A4 (rs2740574), CYP3A5 (rs776746) and CYP3A7 (rs2257401)) with the development of chronic mercury intoxication. Of 170 men examined, 120 were workers chronically exposed to mercury vapors and 50 were carriers of GG-HSPA1B (+1267A/G) genotype associated with chronic mercury intoxication. Urinary content of 4-hydroxyantipyrine (4-HAP) generated in the reaction predominantly catalyzed by CYP3A4/CYP3A5 was studied in workers without chronic mercury intoxication (group 1, N=46) and patients in the delayed period of chronic mercury intoxication (group 2, N=74) depending on the genotypes of CYP3A4 and CYP3A5. For polymorphic loci CYP3A5 and CYP3A7, a tendency to an increase in the frequency of genotypes with rare alleles was found (p=0.071 and p=0.078) in the combined group (group 2 together with GGHSPA1B genotype carriers) relative to group 1. The high level of linkage disequilibrium was noted, especially for the pair rs776746 and rs2257401 (LD (r)=0.89). In group 2, a trend to 4-HAP decrease compared to group 1 (p=0.056 and p=0.065) was revealed for carriers of AA-CYP3A4 and GG-CYP3A5 genotypes. The involvement of CYP3A in the development of mercury neurotoxic effect remains unclear.
Subject(s)
Cytochrome P-450 CYP3A/genetics , Mercury Poisoning/genetics , Mercury/toxicity , Occupational Diseases/genetics , Polymorphism, Single Nucleotide , Alleles , Antipyrine/analogs & derivatives , Antipyrine/urine , Case-Control Studies , Cytochrome P-450 CYP3A/blood , Gene Expression , Gene Frequency , Genotype , Humans , Linkage Disequilibrium , Male , Mercury Poisoning/blood , Mercury Poisoning/diagnosis , Mercury Poisoning/pathology , Middle Aged , Occupational Diseases/blood , Occupational Diseases/diagnosis , Occupational Diseases/pathologyABSTRACT
Occupational and environmental exposure to mercury is a public health concern worldwide. Although the altered epigenetic regulatory features, such as microRNA, have been associated with mercury exposure, the underlying molecular mechanism is not well illuminated. This study aimed to confirm that hsa-miR-92a and hsa-miR-486 are novel diagnostic biomarkers of occupational mercury poisoning, and to explore the underlying mechanism of miR-92a and miR-486 in mercury toxicity. RT-qPCR assays and receiver operating characteristics curve analyses were conducted to confirm the diagnostic value of miR-92a and miR-486 as biomarkers of occupational mercury poisoning. Dual-luciferase assay was applied to confirm the target gene of miR-92a and miR-486 in vitro. Then, we established an in-vitro model where miR-92a and miR-486 were overexpressed or knocked down in HEK-293 and HUVEC cells. RT-qPCR and western blotting were used to analyze gene and protein expression levels. Cell apoptosis was determined by flow cytometry. Results show that miR-92a and miR-486 expression levels were up-regulated in workers exposed to occupational mercury. Upregulation of miR-92a and miR-486 may play a crucial role in mercury toxicity by jointly activating the NF-κB signaling pathway via targeting KLF4 and Cezanne, respectively.
Subject(s)
Biomarkers/analysis , Mercury Poisoning/genetics , MicroRNAs/genetics , Blotting, Western , HEK293 Cells , Human Umbilical Vein Endothelial Cells , Humans , Kruppel-Like Factor 4 , NF-kappa B/blood , Signal Transduction/drug effects , Signal Transduction/geneticsABSTRACT
OBJECTIVES: To investigate 4 loci of 3 HSP70 genes in caustic soda production plant former workers, who have been exposed to metallic mercury vapors for a long time, and including numerous cases of chronic mercury intoxication (CMI). MATERIAL AND METHODS: Polymorphisms in HSP70 gene family members (HSP1A1 (+190G/C, rs1043618), HSPA1B (+1267A/G and +2074G/C, rs1061581) and HSP1AL (+2437T/C, rs2227956)) genes were studied among 120 male workers involved in caustic soda production by mercury electrolysis at 2 plants in Eastern Siberia. These subjects had been chronically exposed to metallic mercury vapors for > 5 years and divided into 3 groups based on the occurrence and time of the CMI diagnosis, or absence of this disease. The Group 1 consisted of individuals (N = 46), who had had contact with mercury but were not diagnosed with the CMI. The Group 2 included workers (N = 56), who were diagnosed with the CMI longer than 14 years ago. The Group 3 consisted of the subjects (N = 18), who had been diagnosed with the CMI 3-5 years ago. The logistic regression analysis was used for 3 genetic models with and without adjustment for age and duration of mercury vapor exposure. RESULTS: We found that genotypes СС-HSPA1A (+190G/C) and GG-HSPA1B (+1267A/G) had a high predictive risk of the CMI development (adjusted odds ratio (ORadj) = 5.58, p = 0.026 and ORadj = 14.7, p = 0.0015, respectively). Twelve individuals with the CMI had a specific combination of СС-HSPA1A (+190G/C) and GG-HSPA1B (+1267A/G) genotypes, which strongly associated with the diagnosis (ORadj = 12.3, p = 0.0285). Moreover, significant association with the CMI was also obtained for the haplotype G-C of 1267A/G and 190G/C polymorphisms (OR = 2.1, p = 0.018). CONCLUSIONS: The association of СС-HSPA1A (+190G/C) and GG-HSPA1B (+1267A/G) genotypes and their combination for the CMI individuals suggests the role for HSPA1 genes in mercury-dependent mechanisms of the CMI development and progression. Int J Occup Med Environ Health 2017;30(1):77-85.
Subject(s)
Genetic Predisposition to Disease , HSP70 Heat-Shock Proteins/genetics , Mercury Poisoning/genetics , Occupational Diseases/genetics , Polymorphism, Genetic , Adult , Humans , Male , Middle Aged , Odds Ratio , Risk Factors , SiberiaABSTRACT
Human exposure to mercury is still a major public health concern. In this context, children have a higher susceptibility to adverse neurological mercury effects, compared to adults with similar exposures. Moreover, there exists a marked variability of personal response to detrimental mercury action, in particular among population groups with significant mercury exposure. New scientific evidence on genetic backgrounds has raised the issue of whether candidate susceptibility genes can make certain individuals more or less vulnerable to mercury toxicity. In this review, the aim is to evaluate a new genetic dimension and its involvement in mercury risk assessment, focusing on the important role played by relevant polymorphisms, located in attractive gene targets for mercury toxicity. Existing original articles on epidemiologic research which report a direct link between the genetic basis of personal vulnerability and different mercury repercussions on human health will be reviewed. Based on this evidence, a careful evaluation of the significant markers of susceptibility will be suggested, in order to obtain a powerful positive "feedback" to improve the quality of life. Large consortia of studies with clear phenotypic assessments will help clarify the "window of susceptibility" in the human health risks due to mercury exposure.
Subject(s)
Biomarkers , Genetic Predisposition to Disease , Mercury Poisoning/blood , Mercury Poisoning/genetics , Mercury/blood , Mercury/toxicity , Adolescent , Adult , Aged , Aged, 80 and over , Child , Child, Preschool , Female , Humans , Infant , Male , Middle Aged , Polymorphism, Genetic , Risk Assessment , Toxicokinetics , Young AdultABSTRACT
The article deals with frequency data on polymorphism of candidate genes participating in endothelial dysfunction (EDN1 Lys198Asn, NOS3 T786C, AGT Thrl74Met and AGT Met23SThr) in totality with concentrations of their active substances in individuals exposed to mercury. Findings are changes in levels of nitrogen oxide, endothelin-1, angiotensin II metabolites in examinees including those without cardiovascular diseases. The genetic conditionality is connected with unfavorable genotypes of polymorphic variants - Met235Thr of AGT gene and Lys198Asn of EDNI gene. Changes in levels of biochemical markers of endothelial dysfunction in individuals exposed to mercury indicate serious endothelial function disorders and are not genetically determined processes.
Subject(s)
Angiotensinogen , Endothelin-1 , Endothelium, Vascular , Mercury Poisoning , Mercury , Nitric Oxide Synthase Type III , Angiotensinogen/genetics , Angiotensinogen/metabolism , Cardiovascular Diseases/metabolism , Cardiovascular Diseases/physiopathology , Endothelin-1/genetics , Endothelin-1/metabolism , Endothelium, Vascular/drug effects , Endothelium, Vascular/metabolism , Endothelium, Vascular/physiopathology , Environmental Exposure/adverse effects , Female , Humans , Male , Mercury/chemistry , Mercury/toxicity , Mercury Poisoning/genetics , Mercury Poisoning/metabolism , Mercury Poisoning/physiopathology , Middle Aged , Nitric Oxide/metabolism , Nitric Oxide Synthase Type III/genetics , Nitric Oxide Synthase Type III/metabolism , Polymorphism, Genetic , Statistics as TopicABSTRACT
Mercury is an environmental toxicant that causes numerous adverse effects on human health and natural ecosystems. The factors that determine the existance of adverse effects, as well as their severity are, among others: the chemical form of mercury (elemental, inorganic, organic), dosis, age, period of exposure, pathways of exposure and environmental, nutritional and genetic factors. In the aquatic cycle of mercury, once it has been deposited, it is transformed into methylmercury due to the action of certain sulphate-reducing bacteria, which bioaccumulates in the aquatic organisms and moves into the food chain. The methylmercury content of large, long-lived fish such as swordfish, shark, tuna or marlin, is higher. Methylmercury binds to protein in fish and is therefore not eliminated by cleaning or cooking the fish. Fetuses and small children are more vulnerable to the neurotoxic effects of methylmercury from the consumption of contaminated fish. Methylmercury is absorbed in the gastrointestinal tract and crosses the blood-brain barrier and the placenta. The intake of certain dietary components such as polyunsaturated fatty acids, selenium, fiber, thiol compounds, certain phytochemicals and other nutrients can modify methylmercury bioaccesibility and its toxicity. Apart from environmental factors, genetic factors can influence mercury toxicity and explain part of the individual vulnerability.
El mercurio es un tóxico ambiental que causa numerosos efectos adversos en la salud humana y en los ecosistemas naturales. Los factores que determinan la aparición de efectos adversos y su severidad son entre otros: la forma química del mercurio (elemental, inorgánico, orgánico), la dosis, la edad, la duración de la exposición, la vía de exposición y los factores ambientales, nutricionales y genéticos. En el ciclo acuático del mercurio, una vez que se ha depositado, se transforma en metilmercurio por la acción de determinadas bacterias sulfato reductoras y se bioacumula en los organismos acuáticos incorporándose a la cadena trófica de alimentos. El contenido de metilmercurio es mayor en las especies depredadoras de mayor tamaño y que viven más años como el emperador, pez espada, tiburón, atún o marlín. El metilmercurio se halla unido a las proteínas del pescado por lo que no se elimina mediante la limpieza ni el cocinado del mismo. El feto en desarrollo y los niños pequeños son los más vulnerables a los efectos neurotóxicos del metilmercurio procedente de la ingesta de pescado contaminado. El metilmercurio se absorbe en el tracto gastrointestinal y atraviesa la barrera hematoencefálica y la placenta. Algunos componentes de la dieta como los ácidos grasos poliinsaturados, el selenio, la fibra, los compuestos tiol, algunos fitoquímicos y otros nutrientes pueden modificar la bioaccesibilidad del mercurio y su toxicidad. Además de los factores ambientales, los factores genéticos pueden influir en la toxicidad del mercurio y explicar parte de la vulnerabilidad individual.
Subject(s)
Mercury Poisoning/genetics , Mercury Poisoning/pathology , Methylmercury Compounds/pharmacokinetics , Methylmercury Compounds/toxicity , Nutritional Status , Aging , Animals , Female , Fishes , Humans , Male , Mercury/metabolism , Mercury/pharmacokinetics , Seafood , Sex Characteristics , ToxicokineticsABSTRACT
The paper presents data on the frequency of polymorphisms of candidate genes involved in the formation of endothelial dysfunction--endothelin-1 (EDN1 Lys198Asn) and endothelial nitric oxide synthase (NOS3 T786C) together with the concentrations of their active products (nitric oxide, endothelin-1) in individuals with chronic mercury intoxication. The concentration change of nitric oxide and endothelin-1 indicates the presence of endothelial dysfunction in the individuals examined. The studied polymorphisms appeared to play a minor role in the pathogenesis of endothelial dysfunction in patients with chronic mercury intoxication.
Subject(s)
Endothelin-1/genetics , Mercury Poisoning/genetics , Nitric Oxide Synthase Type III/genetics , Nitric Oxide/metabolism , Occupational Diseases/blood , Occupational Exposure/adverse effects , Biomarkers/blood , Chronic Disease , Endothelin-1/blood , Endothelium/physiopathology , Genotype , Humans , Male , Mercury Poisoning/blood , Middle Aged , Nitric Oxide/blood , Occupational Diseases/genetics , Phenotype , Polymorphism, GeneticABSTRACT
Methylmercury (MeHg) toxicity may vary widely despite similar levels of exposure. This is hypothetically related to genetic differences in enzymes metabolizing MeHg. MeHg causes oxidative stress in experimental models but little is known about its effects on humans. The aims of the present study was to evaluate the effects of polymorphisms in glutathione (GSH)-related genes (GSTM1, GSTT1, GSTP1 and GCLM) on Hg concentrations in blood and hair, as well as MeHg-related effects on catalase (CAT) and glutathione-peroxidase (GPx) activity and GSH concentrations. Study subjects were from an Amazonian population in Brazil chronically exposed to MeHg from fish. Hg in blood and hair were determined by ICP-MS, CAT, GPx and GSH were determined by spectrophotometry, and multiplex PCR (GSTM1 and GSTT1) and TaqMan assays (GSTP1 and GCLM) were used for genotyping. Mean Hg concentrations in blood and hair were 48±36 µg/L and 14±10 µg/g. Persons with the GCLM-588 TT genotype had lower blood and hair Hg than did C-allele carriers (linear regression for Hg in blood ß=-0.32, p=0.017; and hair ß=-0.33; p=0.0090; adjusted for fish intake, age and gender). GSTM1*0 homozygous had higher blood (ß=0.20; p=0.017) and hair Hg (hair ß=0.20; p=0.013). Exposure to MeHg altered antioxidant status (CAT: ß=-0.086; GSH: ß=-0.12; GPx: ß=-0.16; all p<0.010; adjusted for gender, age and smoking). Persons with GSTM1*0 had higher CAT activity in the blood than those with GSTM1. Our data thus indicate that some GSH-related polymorphisms, such as GSTM1 and GCLM may modify MeHg metabolism and Hg-related antioxidant effects.
Subject(s)
Environmental Exposure/adverse effects , Glutathione/genetics , Mercury Poisoning/genetics , Methylmercury Compounds/analysis , Polymorphism, Genetic/genetics , Adult , Brazil , Cross-Sectional Studies , Female , Genotyping Techniques , Glutamate-Cysteine Ligase/genetics , Glutathione/blood , Glutathione S-Transferase pi/genetics , Glutathione Transferase/genetics , Hair/chemistry , Humans , Male , Mercury Poisoning/blood , Methylmercury Compounds/blood , Multiplex Polymerase Chain Reaction , Oxidation-Reduction/drug effectsABSTRACT
Mercury (Hg) is currently one of the most prevalent pollutants in the environment. Many studies have examined its effects on the health of both humans and animals. Experimental studies have shown that sulfur-containing nutrients play an important role as detoxification and protecting cell against the detrimental properties of mercury. The present study was undertaken to elucidate the toxicity induced by dimethylmercury in male rats through the activities of transaminases, alkaline phosphatase, lactate dehydrogenase in serum and oxidative damage as acetyl cholinesterase activity in different regions of brain and lipid peroxidation, reduced glutathione content, mean DNA damage in liver, kidney and brain of rats given dimethylmercury (10 mg/kg, p.o., once only) along with combination therapy of N-acetyl cysteine (2 mM/kg, i.p.), zinc (2 mM/kg, p.o.) and selenium (0.5 mg/kg, p.o.) for 3 days. In the dimethylmercury group, activities of transaminases, alkaline phosphatase, lactate dehydrogenase in serum, level of lipid peroxidation, mean DNA damage and mercury ion concentration were significantly higher whereas reduced glutathione content and the activity of acetyl cholinesterase were significantly lower compared to controls (P≤0.05). Combined treatment of zinc and selenium with N-acetyl cysteine to dimethylmercury-exposed rats showed a substantial reduction in the levels of DMM-induced oxidative damage and comet tail length. In conclusion, the results of this study support that the supplementation of zinc and selenium with N-acetyl cysteine can improve the DMM induced blood and tissue biochemical oxidative stress and molecular alterations by recoupment in mean DNA damage.
Subject(s)
Acetylcysteine/therapeutic use , Antioxidants/therapeutic use , Mercury Poisoning/prevention & control , Methylmercury Compounds/toxicity , Selenium/therapeutic use , Zinc/therapeutic use , Acetylcholinesterase/metabolism , Acetylcysteine/administration & dosage , Animals , Antioxidants/administration & dosage , Brain/drug effects , Brain/enzymology , Brain/metabolism , DNA Damage/drug effects , Drug Therapy, Combination , Glutathione/blood , Kidney/drug effects , Kidney/metabolism , Lipid Peroxidation/drug effects , Liver/drug effects , Liver/metabolism , Male , Mercury Poisoning/enzymology , Mercury Poisoning/genetics , Mercury Poisoning/metabolism , Methylmercury Compounds/pharmacokinetics , Oxidative Stress/drug effects , Rats , Rats, Sprague-Dawley , Selenium/administration & dosage , Zinc/administration & dosageABSTRACT
The relationship between blood levels of HSP72, HSP72+HSP73, and HSP90 and genotypes of three polymorphisms of the HSP70 family, HSPA1L (2437T/C) and HSPA1B (2074G/C and 1267A/G) as well as GSTT1 and GSTM1 polymorphisms was studied in 82 men chronically exposed to mercury. Of these, 40 men were exposed to mercury for more than 10 years (group 1) and 42 developed chronic mercuric intoxication (group 2). The groups differed significantly by TT (p=0.004) and TC (p=0.007) genotypes of HSPA1L gene locus 2437T/C. Differences in the heat shock protein content associated with HSP70 gene polymorphism were detected only for HSPA1B gene locus 2074G/C and consisted in reduction of HSP90 (p=0.020) and HSP72 (p=0.056) for GG genotype in group 2 in comparison with group 1. Combination of GSTT1(+)/GSTM1(0/0) genotypes was associated with reduction of the protein levels, while variants including GSTT1(0/0) were associated with a significant elevation thereof.
Subject(s)
Glutathione Transferase/genetics , HSP70 Heat-Shock Proteins/blood , HSP90 Heat-Shock Proteins/blood , Mercury/toxicity , Environmental Exposure , Genotype , HSP70 Heat-Shock Proteins/genetics , HSP90 Heat-Shock Proteins/genetics , Humans , Male , Mercury Poisoning/blood , Mercury Poisoning/genetics , Middle Aged , Polymorphism, Single NucleotideABSTRACT
O mercúrio (Hg) é considerado um dos poluentes ambientais mais perigosos,devido a sua persistência no ambiente, eficiente transporte atmosférico e elevadatoxicidade. A biogeoquímica do Hg em ambientes aquáticos é controladaprincipalmente por reações mediadas por bactérias. Dentre elas, a mais relevante doponto de vista da redução do risco do Hg é a redução dos íons mercúricos à formaelementar, menos tóxica, devido à presença do gene merA, que codifica a enzima mercúrio-redutase. Neste estudo, 123 bactérias Gram-negativas resistentes ao Hg foram isoladas de ecossistemas aquáticos brasileiros (RJ, RO, MT e RS). Foram isoladas bactérias resistentes ao Hg em todos os pontos de coleta. A maioria dos isolados foi identificada como E. cloacae, K. pneumoniae, Pantoea sp., E. coli e Serratia sp., indicando contaminação fecal das áreas estudadas. Independente do histórico decontaminação mercurial local, a maioria das amostras apresentou Concentração Mínima Inibitória de Hg igual a 20 micrometro e foi resistente a pelo menos um dos antimicrobianos testados. O gene merA foi detectado em 91 por cento dos isolados, utilizando PCR. A caracterização do gene merA através de sequenciamento confirmou a especificidade dos produtos de amplificação que apresentaram grande similaridade entre si e uma altadivergência genética em relação às sequências identificadas em outros países. Isto sugere a ocorrência de eventos genéticos ao longo do tempo, que resultaram no polimorfismo genético observado no gene merA. A partir dos dados obtidos neste estudo, esperamos contribuir para o avanço do conhecimento sobre a resistência ao Hg,relacionada ao gene merA e suas possíveis aplicações para a biorremediação da poluiçãoambiental.
Subject(s)
Humans , Aquatic Environment/prevention & control , Gram-Negative Bacteria/isolation & purification , Bacteria/isolation & purification , Drug Resistance, Bacterial , Environmental Hazards , Mercury/toxicity , Mercury Poisoning/genetics , Environmental Pollution/prevention & controlABSTRACT
Cinnabar (HgS) is used in traditional medicines, and total Hg content is used for risk assessment of cinnabar-containing traditional medicines such as Zhu-Sha-An-Shen-Wan (ZSASW). Is ZSASW or cinnabar toxicologically similar to common mercurials? Adult Sprague-Dawley rats were gavaged with ZSASW (1.4 g/kg), cinnabar (0.2g/kg), HgCl(2) (0.02 g/kg), MeHg (0.001 g/kg), or saline daily for 60 days, and toxicity was determined. Animal body-weight gain was decreased by HgCl(2) and MeHg. Blood urea nitrogen (BUN) was increased by MeHg. Histology showed severe kidney injury following MeHg and HgCl(2) treatments, but mild after ZSASW and cinnabar. Renal Hg contents were markedly increased in the HgCl(2) and MeHg groups but were not elevated in the ZSASW and cinnabar groups. The expression of kidney injury molecule-1 was increased 50-fold by MeHg, 4-fold by HgCl(2), but was unaltered by ZSASW and cinnabar; the expression of matrilysin was increased 3-fold by MeHg. In contrast, the expression of N-cadherin was decreased by HgCl(2). Thus, ZSASW and cinnabar are much less nephrotoxic than HgCl(2) and MeHg, indicating that chemical forms of mercury underlie their disposition and toxicity.
Subject(s)
Drugs, Chinese Herbal/toxicity , Mercuric Chloride/toxicity , Mercury Compounds/toxicity , Methylmercury Compounds/toxicity , Animals , Biomarkers/metabolism , Blood Chemical Analysis , Body Weight/drug effects , DNA Primers , Gene Expression/drug effects , Kidney/metabolism , Kidney/pathology , Kidney Diseases/chemically induced , Kidney Diseases/pathology , Male , Medicine, Chinese Traditional , Mercuric Chloride/pharmacokinetics , Mercury/metabolism , Mercury Compounds/pharmacokinetics , Mercury Poisoning/genetics , Mercury Poisoning/pathology , Methylmercury Compounds/pharmacokinetics , RNA/genetics , RNA/isolation & purification , Rats , Rats, Sprague-Dawley , Reverse Transcriptase Polymerase Chain Reaction , Weight Gain/drug effectsABSTRACT
BACKGROUND: Mercury is known to bioaccumulate and to magnify in marine mammals, which is a cause of great concern in terms of their general health. In particular, the immune system is known to be susceptible to long-term mercury exposure. The aims of the present study were (1) to determine the mercury level in the blood of free-ranging harbour seals from the North Sea and (2) to examine the link between methylmercury in vitro exposure and immune functions using seal and human mitogen-stimulated peripheral blood mononuclear cells (T-lymphocytes). METHODS: Total mercury was analysed in the blood of 22 harbour seals. Peripheral blood mononuclear cells were isolated from seals (n = 11) and from humans (n = 9). Stimulated lymphocytes of both species were exposed to functional tests (proliferation, metabolic activity, radioactive precursor incorporation) under increasing doses of methylmercury (0.1 to 10 microM). The expression of cytokines (IL-2, IL-4 and TGF-beta) was investigated in seal lymphocytes by RT-PCR and by real time quantitative PCR (n = 5) at methylmercury concentrations of 0.2 and 1 microM. Finally, proteomics analysis was attempted on human lymphocytes (cytoplasmic fraction) in order to identify biochemical pathways of toxicity at concentration of 1 microM (n = 3). RESULTS: The results showed that the number of seal lymphocytes, viability, metabolic activity, DNA and RNA synthesis were reduced in vitro, suggesting deleterious effects of methylmercury concentrations naturally encountered in free-ranging seals. Similar results were found for human lymphocytes. Functional tests showed that a 1 microM concentration was the critical concentration above which lymphocyte activity, proliferation and survival were compromised. The expression of IL-2 and TGF-beta mRNA was weaker in exposed seal lymphocytes compared to control cells (0.2 and 1 microM). Proteomics showed some variation in the protein expression profile (e.g. vimentin). CONCLUSION: Our results suggest that seal and human PBMCs react in a comparable way to MeHg in vitro exposure with, however, larger inter-individual variations. MeHg could be an additional cofactor in the immunosuppressive pollutant cocktail generally described in the blood of seals and this therefore raises the possibility of additional additive effects in the marine mammal immune system.
Subject(s)
Mercury Poisoning/veterinary , Methylmercury Compounds/poisoning , Phoca/immunology , Water Pollutants, Chemical/poisoning , Animals , Cytokines/biosynthesis , Cytokines/genetics , DNA/biosynthesis , DNA/blood , Humans , Immunity, Cellular/drug effects , Lymphocyte Activation/drug effects , Mercury/blood , Mercury Poisoning/blood , Mercury Poisoning/genetics , Mercury Poisoning/immunology , Methylmercury Compounds/blood , Methylmercury Compounds/immunology , North Sea , Phoca/blood , Phoca/genetics , Polymerase Chain Reaction , Protein Biosynthesis/drug effects , Proteomics , RNA/biosynthesis , RNA/blood , T-Lymphocytes/drug effects , Water Pollutants, Chemical/bloodABSTRACT
BACKGROUND: In 2005, 84% of Wayana Amerindians living in the upper marshes of the Maroni River in French Guiana presented a hair mercury concentration exceeding the limit set up by the World Health Organization (10 microg/g). To determine whether this mercurial contamination was harmful, mice have been fed diets prepared by incorporation of mercury-polluted fish from French Guiana. METHODS: Four diets containing 0, 0.1, 1, and 7.5% fish flesh, representing 0, 5, 62, and 520 ng methylmercury per g, respectively, were given to four groups of mice for a month. The lowest fish regimen led to a mercurial contamination pressure of 1 ng mercury per day per g of body weight, which is precisely that affecting the Wayana Amerindians. RESULTS: The expression of several genes was modified with mercury intoxication in liver, kidneys, and hippocampus, even at the lowest tested fish regimen. A net genetic response could be observed for mercury concentrations accumulated within tissues as weak as 0.15 ppm in the liver, 1.4 ppm in the kidneys, and 0.4 ppm in the hippocampus. This last value is in the range of the mercury concentrations found in the brains of chronically exposed patients in the Minamata region or in brains from heavy fish consumers. Mitochondrial respiratory rates showed a 35-40% decrease in respiration for the three contaminated mice groups. In the muscles of mice fed the lightest fish-containing diet, cytochrome c oxidase activity was decreased to 45% of that of the control muscles. When mice behavior was assessed in a cross maze, those fed the lowest and mid-level fish-containing diets developed higher anxiety state behaviors compared to mice fed with control diet. CONCLUSION: We conclude that a vegetarian diet containing as little as 0.1% of mercury-contaminated fish is able to trigger in mice, after only one month of exposure, disorders presenting all the hallmarks of mercurial contamination.
Subject(s)
Disease Models, Animal , Fishes , Food Contamination , Mercury Poisoning/etiology , Methylmercury Compounds/poisoning , Methylmercury Compounds/toxicity , Adult , Animals , Anxiety/chemically induced , Female , French Guiana , Gene Expression , Humans , Indians, South American , Male , Mercury Poisoning/genetics , Mercury Poisoning/metabolism , Methylmercury Compounds/administration & dosage , Methylmercury Compounds/pharmacokinetics , Mice , Mice, Inbred C57BL , Middle Aged , Mitochondria, Muscle/drug effects , Mitochondria, Muscle/metabolism , Mutation , Oxygen Consumption/drug effectsSubject(s)
Child Development/drug effects , Mercury Poisoning/prevention & control , Nutritional Physiological Phenomena , Preservatives, Pharmaceutical/pharmacology , Thimerosal/pharmacology , Confounding Factors, Epidemiologic , Humans , Infant , Intelligence/drug effects , Mercury Poisoning/geneticsABSTRACT
In a group of 465 patients diagnosed as having chronic mercury toxicity (CMT), 32.3% had severe fatigue, 88.8% had memory loss, and 27.5% had depression. A significant correlation was found between CMT and the Apo-lipoprotein E4 genotype (p=0.001). An investigation into an additional 864 consecutively seen general practice patients, resulted in 30.3% having evidence consistent with CMT, and once again a significant correlation was found with the APO-E4 genotype (p=0.001). Removal of amalgam mercury fillings when combined with appropriate treatment resulted in a significant symptom reduction (p<0.001) to levels reported by healthy subjects.
Subject(s)
Depression/chemically induced , Fatigue/chemically induced , Memory Disorders/chemically induced , Mercury Poisoning/diagnosis , Mercury Poisoning/therapy , Adult , Apolipoprotein E2/genetics , Apolipoprotein E2/metabolism , Chronic Disease , Dental Amalgam/adverse effects , Dental Restoration, Permanent , Depression/diagnosis , Depression/genetics , Fatigue/diagnosis , Fatigue/genetics , Female , Genetic Predisposition to Disease , Genotype , Humans , Male , Memory Disorders/diagnosis , Memory Disorders/genetics , Mercury/adverse effects , Mercury/pharmacokinetics , Mercury Poisoning/genetics , Middle Aged , New ZealandABSTRACT
The mammalian thioredoxin reductase (TrxR) is a selenocysteine-containing flavoprotein that regulates the thioredoxin system, one of the major systems that maintain the intracellular redox balance. We previously reported that cytosolic TrxR (TrxR1), one of three mammalian TrxR isozymes, was induced by treatment with cadmium. In the present study, to study the role of cadmium-induced TrxR1 in cellular defense, we silenced the expression of TrxR1 in HeLa cells by using small interfering RNA and examined the effect of TrxR1 silencing on the sensitivity of the cells toward cadmium. We found that the gene silencing of TrxR1 had a dual effect on cadmium-induced cell death, depending on the concentration of cadmium. The TrxR1 silencing increased the sensitivity toward a low dose (less than 10 microM) of cadmium but decreased the sensitivity toward a high dose of cadmium. These results suggested that TrxR1 might play an important role in the cellular defense system against cadmium in two ways. TrxR1 might rescue the cells from a low dose of cadmium-induced moderate injury, while it might promote the death of cells severely injured by a high dose of cadmium.
Subject(s)
Cadmium Poisoning/enzymology , Cadmium Poisoning/genetics , RNA, Small Interfering/pharmacology , Thioredoxin-Disulfide Reductase/genetics , Arsenic Poisoning/enzymology , Arsenic Poisoning/genetics , Arsenic Poisoning/pathology , Blotting, Northern , Cadmium Poisoning/pathology , Cell Death/drug effects , Gene Silencing , HeLa Cells , Humans , Hydrogen Peroxide/toxicity , Mercury Poisoning/enzymology , Mercury Poisoning/genetics , Mercury Poisoning/pathology , Oxidants/toxicity , Tetrazolium Salts , Thiazoles , Thioredoxin Reductase 1 , Thioredoxin-Disulfide Reductase/biosynthesis , TransfectionABSTRACT
Cysteine sulfhydryl-rich peptide thiols are believed to play important roles in the detoxification of many heavy metals and metalloids such as arsenic, mercury, and cadmium in plants. The gamma-glutamylcysteine synthetase (gamma-ECS) catalyzes the synthesis of the dipeptidethiol gamma-glu-cys (gamma-EC), the first step in the biosynthesis of phytochelatins (PCs). Arabidopsis thaliana, engineered to express the bacterial gamma-ECS gene under control of a strong constitutive actin regulatory sequence (A2), expressed gamma-ECS at levels approaching 0.1% of total protein. In response to arsenic, mercury, and cadmium stresses, the levels of gamma-EC and its derivatives, glutathione (GSH) and PCs, were increased in the A2::ECS transgenic plants to three- to 20-fold higher concentrations than the increases that occurred in wild-type (WT). Compared to cadmium and mercury treatments, arsenic treatment most significantly increased levels of gamma-EC and PCs in both the A2::ECS transgenic and WT plants. The A2::ECS transgenic plants were highly resistant to arsenic and weakly resistant to mercury. Although exposure to cadmium produced three- to fivefold increases in levels of gamma-EC-related peptides in the A2::ECS lines, these plants were significantly more sensitive to Cd(II) than WT and trace levels of Cd(II) blocked resistance to arsenic and mercury. A few possible mechanisms for gamma-ECS-enhanced arsenic and mercury resistance and cadmium hypersensitivity are discussed.
Subject(s)
Arabidopsis/drug effects , Arabidopsis/enzymology , Arsenic Poisoning/prevention & control , Cadmium Poisoning/prevention & control , Glutamate-Cysteine Ligase/biosynthesis , Mercury Poisoning/prevention & control , Arabidopsis/genetics , Arabidopsis/metabolism , Arsenic/pharmacokinetics , Arsenic/toxicity , Arsenic Poisoning/genetics , Arsenic Poisoning/metabolism , Bacterial Proteins/biosynthesis , Bacterial Proteins/chemistry , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Blotting, Western , Cadmium/pharmacokinetics , Cadmium/toxicity , Cadmium Poisoning/genetics , Cadmium Poisoning/metabolism , Chromatography, High Pressure Liquid , Cloning, Molecular , Escherichia coli/genetics , Glutamate-Cysteine Ligase/chemistry , Glutamate-Cysteine Ligase/genetics , Glutamate-Cysteine Ligase/metabolism , Glutathione/biosynthesis , Glutathione/metabolism , Mercury/pharmacokinetics , Mercury/toxicity , Mercury Poisoning/genetics , Mercury Poisoning/metabolism , Phytochelatins , Plant Diseases/chemically induced , Plant Diseases/genetics , Plants, Genetically Modified/drug effects , Plants, Genetically Modified/enzymology , Plants, Genetically Modified/genetics , Plants, Genetically Modified/metabolismABSTRACT
The placenta plays an important role in the regulation of maternal to fetal transfer of toxic substances, including nonessential metals. Metallothioneins (MTs), which are known to have protective effects against heavy metal toxicity, exist in the placenta, but the exact localization of placental MTs (both MT-I and MT-III) and their physiological role in the placenta exposed to mercury are unclear. The present study was performed to examine the localization of MTs and mercury granules in the placenta of mice exposed to mercury vapor. On gestational day 16, MT-I & II-null and wild-type mice were exposed to mercury vapor at 4.9 to 5.9 mg/m3 for 2 hours. At 24 and 48 hours after exposure, the placentas were examined for mercury distribution (autometallography), MT immunoreactivity, and MT mRNA expression (in situ hybridization). No histological changes were observed in the placentas of either MT-null or wild-type mice. Mercury deposition was demonstrated along the boundary between the junctional zone and the labyrinth zone, as well as in the yolk sac, maternal decidual cells, and labyrinth trophoblasts of both MT-null and wild-type mice. MT-I & -II immunoreactivity, which was confined to wild-type mice, was demonstrated in the yolk sac and decidual cells; mercury was also shown in both structures, suggesting that mercury granules were bound to MTs. MT-III mRNA expression was observed in the yolk sac, decidual cells, and spongiotrophoblasts in both MT-null and wild-type mice. There was, however, no evidence of MT at the boundary between the junctional and labyrinth zones, where substantial mercury deposits were demonstrated. These results suggest that placental MTs and the other unknown molecules may be related to the barrier to the placental transfer of mercury.
