Deleterious effects of chronic mercury exposure on in vitro LTP, memory process, and oxidative stress
Autor: | Karolini Zuqui, Leandro F. Oliveira, Marcia Guimarães-Marques, Fulvio A. Scorza, Carla A. Scorza, Laís D. Rodrigues, Selvin Z. Reyes-Garcia, Dalton Valentim Vassallo, Mariana Bocca Nejm, Ana C. Fiorini, Giancarlo de Mattos Cardillo |
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Rok vydání: | 2019 |
Předmět: |
chemistry.chemical_classification
Reactive oxygen species Antioxidant Health Toxicology and Mutagenesis medicine.medical_treatment Neurotoxicity Long-term potentiation General Medicine 010501 environmental sciences Pharmacology medicine.disease medicine.disease_cause 01 natural sciences Pollution chemistry Bioaccumulation Synaptic plasticity medicine Environmental Chemistry Receptor Oxidative stress 0105 earth and related environmental sciences |
Zdroj: | Environmental Science and Pollution Research. 27:7559-7569 |
ISSN: | 1614-7499 0944-1344 |
Popis: | Heavy metal contamination in aquatic environments plays an important role in the exposure of humans to these toxicants. Among these pollutants, mercury (Hg) is one main concern due to its high neurotoxicity and environmental persistence. Even in low concentrations, Hg bioaccumulation is a major threat to human health, with higher impact on populations whose diet has fish as chief consumption. Mercury compounds have high affinity for neuronal receptors and proteins, which gives Hg its cumulative feature and have the ability to cross cell membranes and blood–brain barrier to show their neurotoxicity. Intoxication with Hg increases levels of reactive oxygen species (ROS), thus depleting faster the resource of antioxidant proteins. To evaluate Hg-induced hippocampal ROS production, synaptic plasticity, anxiety, and memory, a total of 11 male Wistar rats were exposed to HgCl2 (Hg30 group) to produce a residual concentration of 8 ng/mL at the end of 30 days. Behavioral tests (plus-maze discriminative avoidance task), in vitro electrophysiology, and ROS assays were performed. Western blot assay showed decreased levels of antioxidant proteins GPx and SOD in Hg30 group. Increased ROS production was observed in the CA1 and CA3 regions in the Hg-exposed group. Plus-maze task detected long-term memory impairment in Hg30 group, linked to poorer in vitro long-term potentiation as compared to control group. Hg intoxication also promoted higher anxiety-like behavior in the exposed animals. In conclusion, our data suggests that low doses of HgCl2 resulted in impaired long-term memory and unbalance between decreased antioxidant protein expression and increased ROS production in the hippocampus. |
Databáze: | OpenAIRE |
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