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Literature DB >> 24210169

Behavioral effects of developmental methylmercury drinking water exposure in rodents.

Emily B Bisen-Hersh¹, Marcelo Farina², Fernando Barbosa³, Joao B T Rocha⁴, Michael Aschner⁵.

Abstract

Early methylmercury (MeHg) exposure can have long-lasting consequences likely arising from impaired developmental processes, the outcome of which has been exposed in several longitudinal studies of affected populations. Given the large number of newborns at an increased risk of learning disabilities associated with in utero MeHg exposure, it is important to study neurobehavioral alterations using ecologically valid and physiologically relevant models. This review highlights the benefits of using the MeHg drinking water exposure paradigm and outlines behavioral outcomes arising from this procedure in rodents. Combination treatments that exacerbate or ameliorate MeHg-induced effects, and possible molecular mechanisms underlying behavioral impairment are also discussed.

Entities: CellLine Chemical Disease Gene Species

Keywords: Behavior; Developmental neurotoxicity; Learning; Mercury; Rodents

Mesh：

Substances：

Year: 2013 PMID： 24210169 PMCID： PMC3979511 DOI： 10.1016/j.jtemb.2013.09.008

Source DB: PubMed Journal: J Trace Elem Med Biol ISSN： 0946-672X Impact factor: 3.849

93 in total

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Journal: Lancet Date: 2006-12-16 Impact factor: 79.321

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Authors: Keller Samara Malagutti; Aline Preve da Silva; Hugo Campos Braga; Péricles Arruda Mitozo; Adair Roberto Soares Dos Santos; Alcir Luiz Dafre; Andreza Fabro de Bem; Marcelo Farina
Journal: Environ Toxicol Pharmacol Date: 2008-11-21 Impact factor: 4.860

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Authors: C U Eccles; Z Annau
Journal: Neurobehav Toxicol Teratol Date: 1982 May-Jun

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Authors: Matthew D Rand; Julie C Dao; Todd A Clason
Journal: Neurotoxicology Date: 2009-05-04 Impact factor: 4.294

6. Prenatal methylmercury exposure hampers glutathione antioxidant system ontogenesis and causes long-lasting oxidative stress in the mouse brain.

Authors: James Stringari; Adriana K C Nunes; Jeferson L Franco; Denise Bohrer; Solange C Garcia; Alcir L Dafre; Dejan Milatovic; Diogo O Souza; João B T Rocha; Michael Aschner; Marcelo Farina
Journal: Toxicol Appl Pharmacol Date: 2007-10-22 Impact factor: 4.219

7. Long-lasting depression-like behavior and epigenetic changes of BDNF gene expression induced by perinatal exposure to methylmercury.

Authors: Natalia Onishchenko; Nina Karpova; Farideh Sabri; Eero Castrén; Sandra Ceccatelli
Journal: J Neurochem Date: 2008-05-15 Impact factor: 5.372

8. Prenatal methylmercury exposure increases responding under clocked and unclocked fixed interval schedules of reinforcement.

Authors: Miranda N Reed; M Christopher Newland
Journal: Neurotoxicol Teratol Date: 2007-03-19 Impact factor: 3.763

9. Cytoprotective role of Nrf2/Keap1 system in methylmercury toxicity.

Authors: Takashi Toyama; Daigo Sumi; Yasuhiro Shinkai; Akira Yasutake; Keiko Taguchi; Kit I Tong; Masayuki Yamamoto; Yoshito Kumagai
Journal: Biochem Biophys Res Commun Date: 2007-09-18 Impact factor: 3.575

10. Response inhibition is impaired by developmental methylmercury exposure: acquisition of low-rate lever-pressing.

Authors: M Christopher Newland; Daniel J Hoffman; John C Heath; Wendy D Donlin
Journal: Behav Brain Res Date: 2013-05-27 Impact factor: 3.332

9 in total

1. High level of methylmercury exposure causes persisted toxicity in Nauphoeta cinerea.

Authors: Bruna C Piccoli; Jéssica C Alvim; Fernanda D da Silva; Pablo A Nogara; Olawande C Olagoke; Michael Aschner; Cláudia S Oliveira; João B T Rocha
Journal: Environ Sci Pollut Res Int Date: 2019-12-16 Impact factor: 4.223

2. Methylmercury exposure develops atherosclerotic risk factors in the aorta and programmed cell death in the cerebellum: ameliorative action of Celastrus paniculatus ethanolic extract in male Wistar rats.

Authors: Thangarajan Sumathi; Sherin Jacob; Rahul Gopalakrishnan
Journal: Environ Sci Pollut Res Int Date: 2018-08-28 Impact factor: 4.223

3. Developmental exposure to methylmercury and resultant muscle mercury accumulation and adult motor deficits in mice.

Authors: Matthew D Rand; Katherine Conrad; Elena Marvin; Katherine Harvey; Don Henderson; Rabi Tawil; Marissa Sobolewski; Deborah A Cory-Slechta
Journal: Neurotoxicology Date: 2020-07-28 Impact factor: 4.294

4. Methylmercury exposure during early Xenopus laevis development affects cell proliferation and death but not neural progenitor specification.

Authors: Ryan W Huyck; Maitreyi Nagarkar; Nina Olsen; Samuel E Clamons; Margaret S Saha
Journal: Neurotoxicol Teratol Date: 2014-12-10 Impact factor: 3.763

5. Sex- and structure-specific differences in antioxidant responses to methylmercury during early development.

Authors: Joanna A Ruszkiewicz; Aaron B Bowman; Marcelo Farina; João B T Rocha; Michael Aschner
Journal: Neurotoxicology Date: 2016-07-22 Impact factor: 4.294

6. Mercury-induced epigenetic transgenerational inheritance of abnormal neurobehavior is correlated with sperm epimutations in zebrafish.

Authors: Michael J Carvan; Thomas A Kalluvila; Rebekah H Klingler; Jeremy K Larson; Matthew Pickens; Francisco X Mora-Zamorano; Victoria P Connaughton; Ingrid Sadler-Riggleman; Daniel Beck; Michael K Skinner
Journal: PLoS One Date: 2017-05-02 Impact factor: 3.240