Alteration of putative amino acid levels and morphological findings in neural tissues of methylmercury-intoxicated mice

Hirayama, Kazutsugu; Inouye, Minoru; Fujisaki, Tadashi

doi:10.1007/bf00286572

Cited by 6 publications

References 33 publications

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Effects of methylmercury and mercuric chloride on preimplantation mouse embryos in vivo

Kajiwara

Inouye

1986

Teratology

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This report compares the effects of methylmercuric chloride (MMC) and mercuric chloride (MC) on the development of mouse preimplantation embryos in vivo. Female mice were injected with a single intravenous dose of 0.5-20.0 mg Hg/kg MMC or 0.5-2.5 mg Hg/kg MC on day 0 of gestation. The embryos were recovered by flushing excised oviduct and uterus on day 3.5 of pregnancy, and were examined for abnormalities. In the groups treated with doses of 0.5 and 1.0 mg Hg/kg of both compounds, the rates of abnormal embryos were not significantly different from that in the control group. The 50% effective dose of MMC was twice as great as that of MC. With increasing dose, the difference became more obvious; the 80% effective doses differed by a factor of ten. The body weight of dams decreased in terms of the dose of mercury in MC-treated groups, but did not vary in MMC-treated groups. The sensitive developmental stage for mercury toxicities could not be determined clearly, although the high sensitivity was reported in the blastocyst stage in vitro. The embryos treated in vivo were less sensitive than those reported in vitro.

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Effects of methylmercury and mercuric chloride on preimplantation mouse embryos in vivo

Kajiwara

Inouye

1986

Teratology

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Methylmercury-Induced Neurotoxicity: Focus on Pro-oxidative Events and Related Consequences

Farina

Aschner

2017

Advances in Neurobiology

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Methylmercury (MeHg) is a highly neurotoxic environmental pollutant. Even though molecular mechanisms mediating MeHg toxicity are not completely understood, several lines of evidence indicate that the neurotoxic effects resultant from MeHg exposure represent a consequence of its pro-oxidative properties. In this regard, MeHg is a soft electrophile that preferentially interacts with (and oxidize) nucleophilic groups (mainly thiols and selenols) from biomolecules, including proteins and low-molecular-weight molecules. Such interaction contributes to the occurrence of oxidative stress and impaired function of several molecules [proteins (receptors, transporters, enzymes, structural proteins), lipids (i.e., membrane constituents and intracellular messengers), and nucleic acids (i.e., DNA)], culminating in neurotoxicity.In this chapter, an initial background on the general aspects regarding the neurotoxicology of MeHg, with a particular focus on its pro-oxidative properties and its interaction with nucleophilic thiol- and selenol-containing molecules, is provided. Even though experimental evidence indicates that symptoms (i.e., motor impairment) resultant from MeHg exposure are linked to its pro-oxidative properties, as well as to their molecular consequences (lipid peroxidation, disruption of glutamate and/or calcium homeostasis, etc.), data concerning the relationship between molecular parameters and behavioral impairment others that those related to the motor function (i.e., visual impairment, cognitive skills, etc.) are scarce. Thus, even though scientific research has provided a significant amount of knowledge concerning the mechanisms mediating MeHg-induced neurotoxicity in the last decades, the whole scenario is far from being completely understood, and further research in this area is well warranted.

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The effects of methylmercury on endogenous dopamine efflux from mouse striatal slices

Kalisch

Racz

1996

Toxicology Letters

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Alteration of putative amino acid levels and morphological findings in neural tissues of methylmercury-intoxicated mice

Cited by 6 publications

References 33 publications

Effects of methylmercury and mercuric chloride on preimplantation mouse embryos in vivo

Effects of methylmercury and mercuric chloride on preimplantation mouse embryos in vivo

Methylmercury-Induced Neurotoxicity: Focus on Pro-oxidative Events and Related Consequences

The effects of methylmercury on endogenous dopamine efflux from mouse striatal slices

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