Toxicology and Immunotoxicology of Mercury: A Comparative Review in Fish and Humans

Sweet, Leonard I.; Zelikoff, Judith T.

doi:10.1080/109374001300339809

Cited by 206 publications

(104 citation statements)

References 243 publications

(280 reference statements)

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“…The mercury compounds are generally used in dry-cell batteries, fluorescent bulbs, arc lamps, mirrors, and in the extraction of gold and silver from ores, thermometers, dental amalgam fillings and vaccine preserver. [87][88][89][90][91] Thimerosal (ethylmercurithiosalicylic acid) is a mercury-containing compound and a preservative for the vaccine and biological products for more than 70 years. Thimerosal dissociates as 49.5% ethylmercury by weight and thiosalicylic acid and may possess higher cytotoxicity on renal cells.…”

Section: Mercurymentioning

confidence: 99%

Heavy metals, islet function and diabetes development

Lin¹,

Yang²,

Huang³

et al. 2009

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208

131

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Section: Mercurymentioning

confidence: 99%

Heavy metals, islet function and diabetes development

Lin¹,

Yang²,

Huang³

et al. 2009

Islets

208

131

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“…However, despite considerable study, no associations have been found between mercury exposure and autoimmune disease in humans, even in highly exposed workers (Moszczynski 1997;Sweet and Zelikoff 2001;Vimercati et al 2001). Experimental research in animal models of Hg-induced autoimmunity (HgIA) may suggest the reason for this.…”

mentioning

confidence: 99%

Low-dose exposure to inorganic mercury accelerates disease and mortality in acquired murine lupus.

Via

Nguyen

Niculescu

et al. 2003

Environ Health Perspect

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Inorganic mercury (iHg) is known to induce autoimmune disease in susceptible rodent strains. Additionally, in inbred strains of mice prone to autoimmune disease, iHg can accelerate and exacerbate disease manifestations. Despite these well-known links between iHg and autoimmunity in animal models, no association between iHg alone and autoimmune disease in humans has been documented. However, it is possible that low-level iHg exposure can interact with disease triggers to enhance disease expression or susceptibility. To address whether exposure to iHg can alter the course of subsequent acquired autoimmune disease, we used a murine model of acquired autoimmunity, lupus-like chronic graft-versus-host disease (GVHD), in which autoimmunity is induced using normal, nonautoimmune prone donor and F1 recipient mice resistant to Hg-induced autoimmunity. Our results indicate that a 2-week exposure to low-dose iHg (20 or 200 micro g/kg every other day) to donor and host mice ending 1 week before GVHD induction can significantly worsen parameters of disease severity, resulting in premature mortality. iHg pretreatment clearly worsened chronic lupus-like disease, rather than GVHD worsening iHg immunotoxicity. These results are consistent with the hypothesis that low-level, nontoxic iHg preexposure may interact with other risk factors, genetic or acquired, to promote subsequent autoimmune disease development.

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“…Mercury (Hg) is a pollutant that can cause developmental and behavioral abnormalities including impaired reproduction and decreased survival in vertebrates [1]. Methylmercury (MeHg) is the form of most concern because, unlike inorganic Hg (Hg [II]) which is readily excreted from the body, MeHg bioaccumulates and can reach harmful levels in fish tissues [2].…”

Section: Introductionmentioning

confidence: 99%

Gold Mining and Mercury Bioaccumulation in a Floodplain Lake and Main Channel of the Tambopata River, Perú

Roach¹,

Jacobsen²,

Fiorello³

et al. 2013

JEP

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Contamination of water bodies by inorganic mercury (Hg [II]) used in placer mining of gold deposits in the Madre de Dios Department, Perú, contributes to the bioaccumulation of methylmercury (MeHg) in fish tissue. We measured MeHg and total Hg (THg) concentrations (mg/kg wet weight [ww] tissue) of thirteen fish species from the Tambopata River, Perú, and the connected oxbow lake Tres Chimbadas. We also used stable isotope analysis (δ 15 N and δ 13 C) to estimate trophic positions of fishes. Average MeHg concentrations of fish species ranged from 0.042 mg/kg ww (Satanoperca jurupari) to 0.463 mg/kg ww (Hoplias malabaricus) in the main channel and from 0.090 mg/kg ww (Parauchenipterus sp.) to 1.282 mg/kg ww (Pimelodina flavipinnis) in the lake. Spearman rank correlation indicated that trophic position had no influence on MeHg concentrations of species in the main channel, but in the lake, trophic positions of species were positively associated with MeHg. Migrations of the pimelodid catfish surveyed from the main channel are well documented. Because little gold mining occurs at our study site, fishes from the main channel may be bioaccumulating MeHg from areas where mining is widespread. Fish species that reside in the lake are relatively sedentary and migration is limited by the brief period of floodplain inundation and the long, narrow corridor that connects the lake to the main channel; lake sediments are therefore the likely source for MeHg bioaccumulation. Five out of the eight fish species surveyed from the main channel and two out of the five species from the lake had MeHg levels higher than United States Environmental Protection Agency fish tissue criterion for human consumption.

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Toxicology and Immunotoxicology of Mercury: A Comparative Review in Fish and Humans

Cited by 206 publications

References 243 publications

Heavy metals, islet function and diabetes development

Heavy metals, islet function and diabetes development

Low-dose exposure to inorganic mercury accelerates disease and mortality in acquired murine lupus.

Gold Mining and Mercury Bioaccumulation in a Floodplain Lake and Main Channel of the Tambopata River, Perú

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Toxicology and Immunotoxicology of Mercury: A Comparative Review in Fish and Humans

Cited by 206 publications

References 243 publications

Heavy metals, islet function and diabetes development

Heavy metals, islet function and diabetes development

Low-dose exposure to inorganic mercury accelerates disease and mortality in acquired murine lupus.

Gold Mining and Mercury Bioaccumulation in a Floodplain Lake and Main Channel of the Tambopata River, Per&#250;

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Gold Mining and Mercury Bioaccumulation in a Floodplain Lake and Main Channel of the Tambopata River, Perú