Fish eating behavior and stages of change in rural, low income, women of childbearing age

Heineman, Sara Christine.

January 2009

Thesis (M Nursing)--Montana State University--Bozeman, 2009. / Typescript. Chairperson, Graduate Committee: Wade G. Hill. Includes bibliographical references (leaves 41-44).

Methylmercury Neurotoxicity and Interactions with Selenium

Campbell, Sonja Gray

January 2015

Methylmercury (MeHg) is a ubiquitous contaminant and potent neurotoxicant with no completely effective therapy, although selenium antagonises MeHg toxicity. Furthermore, nanoparticles are promising as a novel drug delivery system. We researched the potential of selenium nanoparticles (SeNPs) in antagonising MeHg neurotoxicity compared to selenomethionine (SeMet) using primary astrocyte cell cultures and examining outcomes related to oxidative stress. We found that SeNPs were more toxic than SeMet. Increasing SeNPs significantly decreased MeHg cellular uptake and MeHg significantly decreased uptake of SeNPs at the highest concentration. Finally, SeNPs alone produced significantly higher reactive oxidative species and altered the ratio of reduced-to-oxidised glutathione, but MeHg, SeMet, and co-exposures did not. There were no significant effects on glutathione peroxidase or reductase activity. This suggests that SeNPs are more toxic than MeHg in cerebellar astrocytes and that they may not be suitable as a therapy at the doses and formulation used in this research.

Astrocyte

Mercury

Methylmercury

Nanoparticle

Neurotoxicity

Selenium

Hg²⁺ Causes Neurotoxicity at an Intracellular Site Following Entry Through Na and Ca Channels

Miyamoto, Michael D.

16 May 1983

At motor nerve terminals, Hg2+ causes (a) irreversible depolarization, (b) increase in transmitter release, and (c) subsequent irreversible block of transmitter release. All effects are antagonized when a Na channel blocker (tetrodotoxin, TTX) and a Ca channel blocker (Co2+) are present, but not when either blocker is used alone. The effects are not antagonized by TTX plus Co2+ when the mercurial is lipid-soluble (methylmercury). This indicates that the neurotoxic action of Hg2+ is at an intracellular site and that entry is gained through both Na and Ca channels. The results suggest that metals may inhibit transmitter release at either the Ca channel or at the release site, but that irreversible toxicity is due to an intracellular action, possibly involving SH groups.

mercury

methylmercury

neuromuscular junction

neurotoxicity

transmitter release

Prenatal Low-dose Methylmercury (MeHg) Exposure Causes Premature Neuronal Differentiation and Autism Spectrum Disorder (ASD)-like Behaviours in a Rodent Model

Loan, Allison

11 October 2023

Methylmercury (MeHg) is a global pollutant that can elicit a range of adverse health effects in both humans and wildlife populations. Humans are often exposed to MeHg through the consumption of contaminated seafood. Developing fetuses are especially susceptible to the effects of MeHg as it can cross the blood-brain barrier and the placenta. At high doses in utero MeHg causes developmental disorders and congenital disabilities, but long-term low-dose effects are still not fully known. Using a culture model of cerebral cortex development, our lab has shown that low-dose MeHg promotes premature neuronal differentiation. Autism spectrum disorder (ASD) has been associated with prenatal MeHg exposure and is correlated with neuronal overproduction, but a cause-effect relationship has not been shown. In this thesis, I aim to test the hypothesis that prenatal exposure to low-dose MeHg can cause ASD-like symptoms in the offspring following premature neuronal differentiation. My results showed that adult mice prenatally exposed to MeHg exhibited key ASD characteristics including impaired communication, reduced sociability, and increased restrictive repetitive behaviours. Furthermore, I explored the underlying cellular and molecular mechanism that promotes premature neuronal differentiation caused by prenatal MeHg exposure. To reverse the MeHg-induced premature neuronal differentiation, I utilized metformin, an FDA-approved diabetes drug. Overall, these findings provide insights into the toxicology of MeHg and its relationship with ASD etiology, including the underlying mechanism, and a potential therapeutic strategy.

Neurotoxicology

Molecular neuroscience

Transcriptomics

Neurodevelopment

Methylmercury

Metformin

Effects of Methylmercury Exposure on the Immune and Neurological Responses of Mice to Toxoplasma gondii Infection

King, Marquea D.

14 October 2002

Toxoplasma gondii is a protozoan parasite that causes life-threatening disease in congenitally infected infants and immunocompromised patients, such as those inflicted with AIDS. Toxoplasmic encephalitis (TE) is a common presenting condition in an AIDS infection. People become infected with T. gondii by ingesting tissue cysts in undercooked meats or by ingesting oocysts excreted by cats. Methylmercury (MeHg) is a well-documented neurotoxicant that accumulates in the brain and causes severe mental and visual dysfunction, including chronic encephalopathy. Consumption of contaminated fish, grains, and seeds are common sources of human exposure to methylmercury. Studies from our laboratory suggest that oral exposure to a single high dose of 20 mg/kg MeHg does not increase the susceptibility to acute toxoplasmosis in CBA/J mice. Therefore, we further investigated endpoints associated with immunotoxicity and neurotoxicity in 6-week old, female CBA/J mice exposed to both MeHg and T. gondii during a chronic T. gondii infection. We examined both single and multiple doses of MeHg exposure in a chronic parasitic infection model. In the single high dose study, four groups of six-week-old, female CBA/J mice were either fed 25 T. gondii tissue cysts of the ME-49 strain or given vehicle. Six weeks later, two out of the four groups (T. gondii and vehicle control) were orally gavaged with a single dose of 20 mg/kg body weight of MeHg and sacrificed seven days post exposure. Experiments from the multiple MeHg dose study were performed under similar conditions with the same number of groups and dosed by oral gavage with 8 mg/kg body weight of MeHg on days 0, 2,4,7,10,13. These mice were sacrificed on day 17 or 18 after initiating MeHg exposure. Flow cytometry following exposure to a single dose of MeHg in mice with a chronic T. gondii infection revealed significant changes (P < 0.05) within the T cell subpopulation percentages caused by exposure to MeHg. For example, the thymic CD4+CD8+ T cell subpopulations were increased (P <0.05). However, MeHg had no significant effect on the CD4+CD8-, CD4-CD8+, or non-T cell subpopulations in the spleen. Furthermore, MeHg increased splenic cellularity and spleen-to-body-weight ratios with or without a concurrent T. gondii infection. MeHg also caused a significant decrease in mouse body weight. There was a significant (P <0.05) increase in brain tissue cyst counts within the group exposed to both MeHg and T. gondii (16 ± 4, mean ± SE, n=7) versus T. gondii alone (4 ± 1, n=8). Histopathological examination demonstrated that the brain was affected, as lesions, gliosis, and meningitis were notable in mice given T. gondii. Exposure of mice to multiple doses of MeHg also resulted in effects on the immune system of CBA/J mice with and without chronic toxoplasmosis. Total cellularity and numbers of CD4+CD8+, CD4+CD8-, CD4-CD8+, and CD4-CD8- T-cell subpopulations show a marked decrease in number in the thymus, while total cellularity was also decreased in the spleen following concurrent exposure to T. gondii and MeHg. Flow cytometric examination of lymphocyte populations (CD4+ and CD8+ lymphocytes) in the spleen and thymus demonstrated differences from control in the groups exposed to T. gondii and MeHg. Histopathological examination did not reveal any significant lesions. The data from experiments in which single or multiple doses of MeHg were given to mice with a chronic T. gondii infection indicate that concurrent exposure, to both MeHg and T. gondii, dependent on dose and time of exposure had notable effects, especially on the immune system (Supported by NIH Grant F36GM20301). / Ph. D.

Methylmercury

Toxoplasma gondii

Apoptosis

chronic infection

Avaliação dos efeitos tóxicos do metilmercúrio na retina de duas espécies de teleósteos: Hoplias malabaricus e Danio rerio, utilizando um conjunto de biomarcadores biológicos / Evaluation of toxic effects of methylmercury in the retina of fotoreceptores Hoplias malabaricus (BLOCK, 1794), trahira, through histopathological techniques

Prodocimo, Maritana Mela

07 August 2009

Em exposições especificamente relacionadas ao metilmercúrio (MeHg), o principal órgão alvo é o Sistema Nervoso Central (SNC). Os efeitos morfológicos do metilmercúrio nos fotorreceptores da retina de Hoplias malabaricus, traíra, foram investigados através de técnicas histopatológicas. Os exemplares de traíra foram distribuídos em três grupos: um grupo controle e dois grupos expostos ao MeHg. A contaminação trófica e subcrônica foi realizada através de exemplares vivos de Astyanax sp os quais receberam intraperitonealmente um volume de solução aquosa de MeHg correspondente a (0,075µg/g de traíra) ou (0,75µg/g de traíra). Quinze peixes por condição experimental foram sacrificados após 70 dias de exposição e os olhos foram coletados para as análises de microscopia de luz, microscopia eletrônica de transmissão e microscopia eletrônica de varredura. Através de análises químicas quantificamos o mercúrio em músculo e observamos em ambas as doses um acúmulo do metal. Para a maior dose do metal (0,75µg/g), as análises histopatológicas revelaram alterações nas membranas que unem os dois elementos de um cone pareado, degeneração da camada dos fotorreceptores e alterações morfológicas no segmento interno e segmento externo dos bastonetes. As análises também demonstraram alterações estruturais na membrana plasmática do segmento externo e alterações no processo de eliminação dos discos membranosos dos fotorreceptores. No momento da eliminação dos discos antigos foi observada a formação de vacúolos e também uma anormal eliminação dos discos membranosos pelas partes laterais do segmento externo. Para a menor dose do metal (0,075µg/g) além da alteração observada nas membranas que unem os cones pareados e da degeneração celular na camada dos fotorreceptores, observamos uma descontinuidade estrutural dos discos membranosos do segmento externo dos fotorreceptores. Todas estas alterações histopatológicas nos levam a concluir que o metilmercúrio induz alterações histopatológicas nas células da camada dos fotorreceptores podendo consequentemente trazer danos fisiológicos para toda a retina. / In exposures specifically related to methylmercury (MeHg), the main target organ is the Central Nervous System (CNS). In this study, morphological effects of methylmercury in retinal photoreceptors of Hoplias malabaricus, trahira, through histopathological techniques were investigated. Some mature fish were divided in three groups - one control group and the other two which were exposed to MeHg. The trophic and subchronic contamination was performed by live specimen of Astyanax sp which received a volume of aqueous solution of MeHg corresponding to (0,075µg /g trahira) or (0,75µg /g trahira). In an experimental condition, fifteen fish were sacrificed after 70 days of exposure and their eyes were collected for analysis of light microscopy, electron transmission microscopy and scanning electron microscopy. Through chemical analysis the amount of mercury found in muscle was quantified. In both doses an accumulation of the metal in the muscle of these animals was observed. For the highest dose of metal (0,75µg /g), the histopathological analysis revealed changes in the membrane that connects the two elements of a paired cone, cellular degeneration in the layer of photoreceptors and morphological changes in the internal and outer rod segments. The analysis also showed structural changes in the plasma membrane of the outer segment and changes in the process of removal of membranous discs in the apical region of a photoreceptor. At the time of disposal of old discs, the formation of vacuoles and also an abnormal membranous discs removal through the sides of the outer segment were observed. For the smallest dose of the metal (0,075µg/g) besides the morphological changes observed in the membrane which unites the paired cones and cellular degeneration throughout the layer of photoreceptors, a structural discontinuity of the membranous discs of the outer segment were observed in radial sections of rods. All these histopathological changes lead us to conclude that methylmercury induces morphological changes in cells of the layer of photoreceptors, and therefore causing physiological damage to the smooth functioning of the retina.

Compostos de metilmercúrio

Fishes

Intoxicação por mercúrio

Methylmercury

Methylmercury poisoning

Peixes

Retina

Retina

Avaliação dos efeitos tóxicos do metilmercúrio na retina de duas espécies de teleósteos: Hoplias malabaricus e Danio rerio, utilizando um conjunto de biomarcadores biológicos / Evaluation of toxic effects of methylmercury in the retina of fotoreceptores Hoplias malabaricus (BLOCK, 1794), trahira, through histopathological techniques

Maritana Mela Prodocimo

07 August 2009

Em exposições especificamente relacionadas ao metilmercúrio (MeHg), o principal órgão alvo é o Sistema Nervoso Central (SNC). Os efeitos morfológicos do metilmercúrio nos fotorreceptores da retina de Hoplias malabaricus, traíra, foram investigados através de técnicas histopatológicas. Os exemplares de traíra foram distribuídos em três grupos: um grupo controle e dois grupos expostos ao MeHg. A contaminação trófica e subcrônica foi realizada através de exemplares vivos de Astyanax sp os quais receberam intraperitonealmente um volume de solução aquosa de MeHg correspondente a (0,075µg/g de traíra) ou (0,75µg/g de traíra). Quinze peixes por condição experimental foram sacrificados após 70 dias de exposição e os olhos foram coletados para as análises de microscopia de luz, microscopia eletrônica de transmissão e microscopia eletrônica de varredura. Através de análises químicas quantificamos o mercúrio em músculo e observamos em ambas as doses um acúmulo do metal. Para a maior dose do metal (0,75µg/g), as análises histopatológicas revelaram alterações nas membranas que unem os dois elementos de um cone pareado, degeneração da camada dos fotorreceptores e alterações morfológicas no segmento interno e segmento externo dos bastonetes. As análises também demonstraram alterações estruturais na membrana plasmática do segmento externo e alterações no processo de eliminação dos discos membranosos dos fotorreceptores. No momento da eliminação dos discos antigos foi observada a formação de vacúolos e também uma anormal eliminação dos discos membranosos pelas partes laterais do segmento externo. Para a menor dose do metal (0,075µg/g) além da alteração observada nas membranas que unem os cones pareados e da degeneração celular na camada dos fotorreceptores, observamos uma descontinuidade estrutural dos discos membranosos do segmento externo dos fotorreceptores. Todas estas alterações histopatológicas nos levam a concluir que o metilmercúrio induz alterações histopatológicas nas células da camada dos fotorreceptores podendo consequentemente trazer danos fisiológicos para toda a retina. / In exposures specifically related to methylmercury (MeHg), the main target organ is the Central Nervous System (CNS). In this study, morphological effects of methylmercury in retinal photoreceptors of Hoplias malabaricus, trahira, through histopathological techniques were investigated. Some mature fish were divided in three groups - one control group and the other two which were exposed to MeHg. The trophic and subchronic contamination was performed by live specimen of Astyanax sp which received a volume of aqueous solution of MeHg corresponding to (0,075µg /g trahira) or (0,75µg /g trahira). In an experimental condition, fifteen fish were sacrificed after 70 days of exposure and their eyes were collected for analysis of light microscopy, electron transmission microscopy and scanning electron microscopy. Through chemical analysis the amount of mercury found in muscle was quantified. In both doses an accumulation of the metal in the muscle of these animals was observed. For the highest dose of metal (0,75µg /g), the histopathological analysis revealed changes in the membrane that connects the two elements of a paired cone, cellular degeneration in the layer of photoreceptors and morphological changes in the internal and outer rod segments. The analysis also showed structural changes in the plasma membrane of the outer segment and changes in the process of removal of membranous discs in the apical region of a photoreceptor. At the time of disposal of old discs, the formation of vacuoles and also an abnormal membranous discs removal through the sides of the outer segment were observed. For the smallest dose of the metal (0,075µg/g) besides the morphological changes observed in the membrane which unites the paired cones and cellular degeneration throughout the layer of photoreceptors, a structural discontinuity of the membranous discs of the outer segment were observed in radial sections of rods. All these histopathological changes lead us to conclude that methylmercury induces morphological changes in cells of the layer of photoreceptors, and therefore causing physiological damage to the smooth functioning of the retina.

Compostos de metilmercúrio

Intoxicação por mercúrio

Peixes

Retina

Fishes

Methylmercury

Methylmercury poisoning

Retina

Low-level Methyl-mercury Exposure from Fish Consumption and Child Neurodevelopment

Xu, Yingying

January 2017

No description available.

Epidemiology

prenatal methylmercury exposure

child neurodevelopment

fish consumption

postnatal methylmercury exposure

Bayley scales

child IQ

The interactive effects of N-3 long-chain polyunsaturated fatty acids and methylmercury on the cardiovascular system

Teodorescu, Carmen Aurora, Craig-Schmidt, Margaret C.

January 2007

Dissertation (Ph.D.)--Auburn University,2007. / Abstract. Vita. Includes bibliographic references (p.90-118).

Glutamate-cysteine ligase expression in the mouse /

Diaz, Dolores.

January 2001

Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 98-106).