Revisiting Astrocytic Roles in Methylmercury Intoxication

Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system pathologies. Most of these neuropathological conditions involve vascular, neurotransmitter recycling, and oxidative balance disruption leading to acc...

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Published in	Molecular neurobiology Vol. 58; no. 9; pp. 4293 - 4308
Main Authors	Arrifano, Gabriela de Paula, Augusto-Oliveira, Marcus, Souza-Monteiro, José Rogério, Macchi, Barbarella de Matos, Lima, Rafael Rodrigues, Suñol, Cristina, do Nascimento, José Luis Martins, Crespo-Lopez, Maria Elena
Format	Journal Article
Language	English
Published	New York Springer US 01.09.2021 Springer Nature B.V
Subjects	Astrocytes Astrocytes - drug effects Astrocytes - pathology Biomedical and Life Sciences Biomedicine Brain - drug effects Brain - pathology Brain injury Cell Biology Central nervous system Dimethylmercury Glial cells Heavy metals Homeostasis Humans Intoxication Memory Methylmercury Compounds - toxicity Neurobiology Neurology Neuromodulation Neurons Neurons - drug effects Neurons - pathology Neurosciences Neurotoxicity Neurotoxicity Syndromes - pathology Public health Roles Visual discrimination learning Human Brain Pollutant Astroglia Metal Glia Mercury
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Abstract	Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system pathologies. Most of these neuropathological conditions involve vascular, neurotransmitter recycling, and oxidative balance disruption leading to accelerated decline in fine balance, and learning, memory, and visual processes as main outcomes. Besides neurons, astrocytes are involved in virtually all the brain processes and perform important roles in neurological response following injuries. Due to astrocytes’ strategic functions in brain homeostasis, these cells became the subject of several studies on MeHg intoxication. The most heterogenous glial cells, astrocytes, are composed of plenty of receptors and transporters to dialogue with neurons and other cells and to monitor extracellular environment responding tightly through fluctuation of cytosolic ions. The overall toxicity of MeHg might be determined on the basis of the balance between MeHg-mediated injury to neurons and protective responses from astrocytes. Although the role of neurons in MeHg intoxication is relatively well-established, the role of the astrocytes is only beginning to be understood. In this review, we update the information on astroglial modulation of the MeHg-induced neurotoxicity, providing remarks on their protective and deleterious roles and insights for future studies.
AbstractList	Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system pathologies. Most of these neuropathological conditions involve vascular, neurotransmitter recycling, and oxidative balance disruption leading to accelerated decline in fine balance, and learning, memory, and visual processes as main outcomes. Besides neurons, astrocytes are involved in virtually all the brain processes and perform important roles in neurological response following injuries. Due to astrocytes' strategic functions in brain homeostasis, these cells became the subject of several studies on MeHg intoxication. The most heterogenous glial cells, astrocytes, are composed of plenty of receptors and transporters to dialogue with neurons and other cells and to monitor extracellular environment responding tightly through fluctuation of cytosolic ions. The overall toxicity of MeHg might be determined on the basis of the balance between MeHg-mediated injury to neurons and protective responses from astrocytes. Although the role of neurons in MeHg intoxication is relatively well-established, the role of the astrocytes is only beginning to be understood. In this review, we update the information on astroglial modulation of the MeHg-induced neurotoxicity, providing remarks on their protective and deleterious roles and insights for future studies. Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system pathologies. Most of these neuropathological conditions involve vascular, neurotransmitter recycling, and oxidative balance disruption leading to accelerated decline in fine balance, and learning, memory, and visual processes as main outcomes. Besides neurons, astrocytes are involved in virtually all the brain processes and perform important roles in neurological response following injuries. Due to astrocytes' strategic functions in brain homeostasis, these cells became the subject of several studies on MeHg intoxication. The most heterogenous glial cells, astrocytes, are composed of plenty of receptors and transporters to dialogue with neurons and other cells and to monitor extracellular environment responding tightly through fluctuation of cytosolic ions. The overall toxicity of MeHg might be determined on the basis of the balance between MeHg-mediated injury to neurons and protective responses from astrocytes. Although the role of neurons in MeHg intoxication is relatively well-established, the role of the astrocytes is only beginning to be understood. In this review, we update the information on astroglial modulation of the MeHg-induced neurotoxicity, providing remarks on their protective and deleterious roles and insights for future studies.Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system pathologies. Most of these neuropathological conditions involve vascular, neurotransmitter recycling, and oxidative balance disruption leading to accelerated decline in fine balance, and learning, memory, and visual processes as main outcomes. Besides neurons, astrocytes are involved in virtually all the brain processes and perform important roles in neurological response following injuries. Due to astrocytes' strategic functions in brain homeostasis, these cells became the subject of several studies on MeHg intoxication. The most heterogenous glial cells, astrocytes, are composed of plenty of receptors and transporters to dialogue with neurons and other cells and to monitor extracellular environment responding tightly through fluctuation of cytosolic ions. The overall toxicity of MeHg might be determined on the basis of the balance between MeHg-mediated injury to neurons and protective responses from astrocytes. Although the role of neurons in MeHg intoxication is relatively well-established, the role of the astrocytes is only beginning to be understood. In this review, we update the information on astroglial modulation of the MeHg-induced neurotoxicity, providing remarks on their protective and deleterious roles and insights for future studies.
Author	Souza-Monteiro, José Rogério Lima, Rafael Rodrigues do Nascimento, José Luis Martins Crespo-Lopez, Maria Elena Suñol, Cristina Augusto-Oliveira, Marcus Arrifano, Gabriela de Paula Macchi, Barbarella de Matos
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Snippet	Intoxication by heavy metals such as methylmercury (MeHg) is recognized as a global health problem, with strong implications in central nervous system...
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SubjectTerms	Astrocytes Astrocytes - drug effects Astrocytes - pathology Biomedical and Life Sciences Biomedicine Brain - drug effects Brain - pathology Brain injury Cell Biology Central nervous system Dimethylmercury Glial cells Heavy metals Homeostasis Humans Intoxication Memory Methylmercury Compounds - toxicity Neurobiology Neurology Neuromodulation Neurons Neurons - drug effects Neurons - pathology Neurosciences Neurotoxicity Neurotoxicity Syndromes - pathology Public health Roles Visual discrimination learning
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Title	Revisiting Astrocytic Roles in Methylmercury Intoxication
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