Developmental selenomethionine and methylmercury exposures affect zebrafish learning

Abstract Methylmercury (MeHg) is a ubiquitous environmental pollutant and has been shown to affect learning in vertebrates following relatively low exposures. Zebrafish were used to model long-term learning deficits after developmental MeHg exposure. Selenomethionine (SeMet) co-exposure was used to...

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Veröffentlicht in:	Neurotoxicology and teratology 2010-03, Vol.32 (2), p.246-255
Hauptverfasser:	Smith, Leigh E, Carvan, Michael J, Dellinger, John A, Ghorai, Jugal K, White, Donald B, Williams, Frederick E, Weber, Daniel N
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Sprache:	eng
Schlagworte:	Animals Brain - drug effects Brain - growth & development Brain - physiopathology Cell Proliferation - drug effects Cytoprotection - drug effects Cytoprotection - physiology Danio rerio Developmental exposure Disease Models, Animal Dose-Response Relationship, Drug Emergency Female Learning Learning - drug effects Learning - physiology Learning Disorders - chemically induced Learning Disorders - drug therapy Learning Disorders - physiopathology Male Medical Education Mercury Methylmercury Compounds - antagonists & inhibitors Methylmercury Compounds - toxicity Neuroprotective Agents - pharmacology Neuroprotective Agents - therapeutic use Neuropsychological Tests Neurotoxicity Syndromes - drug therapy Neurotoxicity Syndromes - physiopathology Neurotoxins - antagonists & inhibitors Neurotoxins - toxicity Selenium Selenomethionine - pharmacology Selenomethionine - therapeutic use Space Perception - drug effects Space Perception - physiology Spatial alternation Telencephalon - drug effects Telencephalon - growth & development Telencephalon - physiopathology Treatment Outcome Zebrafish
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container_title	Neurotoxicology and teratology
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creator	Smith, Leigh E Carvan, Michael J Dellinger, John A Ghorai, Jugal K White, Donald B Williams, Frederick E Weber, Daniel N
description	Abstract Methylmercury (MeHg) is a ubiquitous environmental pollutant and has been shown to affect learning in vertebrates following relatively low exposures. Zebrafish were used to model long-term learning deficits after developmental MeHg exposure. Selenomethionine (SeMet) co-exposure was used to evaluate its role in neuroprotection. Embryos were exposed from 2 to 24 h post fertilization to (1) MeHg without SeMet, (2) SeMet without MeHg and (3) in combination of MeHg and SeMet. In case (1), the levels of MeHg were 0.00, 0.01, 0.03, 0.06, 0.10, and 0.30 μM. In case (2), the levels of SeMet were 0.00. 0.03, 0.06, 0.10, and 0.30 μM. In case (3), co-exposure levels of (MeHg, SeMet) were (0.03, 0.03), (0.03, 0.06), (0.03, 0.10), (0.03, 0.30), (0.10, 0.03), (0.10, 0.06), (0.10, 0.10), and (0.10, 0.30) μM. Learning functions were tested in individual adults, 4 months after developmental exposure using a spatial alternation paradigm with food delivery on alternating sides of the aquarium. Low levels of MeHg (< 0.1 µM) exposure delayed learning in treated fish; fish exposed to higher MeHg levels were unable to learn the task; SeMet co-exposure did not prevent this deficit. These data are consistent with findings in laboratory rodents. The dorsal and lateral telencephalon are the primary brain regions in fish involved in spatial learning and memory. Adult telencephalon cell body density decreased significantly at all MeHg exposures > 0.01 μM MeHg. SeMet co-exposure ameliorated but did not prevent changes in telencephalon cell body density. In summary, MeHg affected both learning and brain structure, but SeMet only partially reversed the latter.
doi_str_mv	10.1016/j.ntt.2009.09.004
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Zebrafish were used to model long-term learning deficits after developmental MeHg exposure. Selenomethionine (SeMet) co-exposure was used to evaluate its role in neuroprotection. Embryos were exposed from 2 to 24 h post fertilization to (1) MeHg without SeMet, (2) SeMet without MeHg and (3) in combination of MeHg and SeMet. In case (1), the levels of MeHg were 0.00, 0.01, 0.03, 0.06, 0.10, and 0.30 μM. In case (2), the levels of SeMet were 0.00. 0.03, 0.06, 0.10, and 0.30 μM. In case (3), co-exposure levels of (MeHg, SeMet) were (0.03, 0.03), (0.03, 0.06), (0.03, 0.10), (0.03, 0.30), (0.10, 0.03), (0.10, 0.06), (0.10, 0.10), and (0.10, 0.30) μM. Learning functions were tested in individual adults, 4 months after developmental exposure using a spatial alternation paradigm with food delivery on alternating sides of the aquarium. 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All rights reserved.</rights><rights>2009 Elsevier Inc. All rights reserved. 2009</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c537t-ae61b5199cbfbd71dcbaf1f74019520ab12eb8e5ce9ded86c3fed08fbbf5c0613</citedby><cites>FETCH-LOGICAL-c537t-ae61b5199cbfbd71dcbaf1f74019520ab12eb8e5ce9ded86c3fed08fbbf5c0613</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://dx.doi.org/10.1016/j.ntt.2009.09.004$$EHTML$$P50$$Gelsevier$$H</linktohtml><link.rule.ids>230,315,781,785,886,3551,27926,27927,45997</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/19800969$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Smith, Leigh E</creatorcontrib><creatorcontrib>Carvan, Michael J</creatorcontrib><creatorcontrib>Dellinger, John A</creatorcontrib><creatorcontrib>Ghorai, Jugal K</creatorcontrib><creatorcontrib>White, Donald B</creatorcontrib><creatorcontrib>Williams, Frederick E</creatorcontrib><creatorcontrib>Weber, Daniel N</creatorcontrib><title>Developmental selenomethionine and methylmercury exposures affect zebrafish learning</title><title>Neurotoxicology and teratology</title><addtitle>Neurotoxicol Teratol</addtitle><description>Abstract Methylmercury (MeHg) is a ubiquitous environmental pollutant and has been shown to affect learning in vertebrates following relatively low exposures. Zebrafish were used to model long-term learning deficits after developmental MeHg exposure. Selenomethionine (SeMet) co-exposure was used to evaluate its role in neuroprotection. Embryos were exposed from 2 to 24 h post fertilization to (1) MeHg without SeMet, (2) SeMet without MeHg and (3) in combination of MeHg and SeMet. In case (1), the levels of MeHg were 0.00, 0.01, 0.03, 0.06, 0.10, and 0.30 μM. In case (2), the levels of SeMet were 0.00. 0.03, 0.06, 0.10, and 0.30 μM. In case (3), co-exposure levels of (MeHg, SeMet) were (0.03, 0.03), (0.03, 0.06), (0.03, 0.10), (0.03, 0.30), (0.10, 0.03), (0.10, 0.06), (0.10, 0.10), and (0.10, 0.30) μM. Learning functions were tested in individual adults, 4 months after developmental exposure using a spatial alternation paradigm with food delivery on alternating sides of the aquarium. Low levels of MeHg (< 0.1 µM) exposure delayed learning in treated fish; fish exposed to higher MeHg levels were unable to learn the task; SeMet co-exposure did not prevent this deficit. These data are consistent with findings in laboratory rodents. The dorsal and lateral telencephalon are the primary brain regions in fish involved in spatial learning and memory. Adult telencephalon cell body density decreased significantly at all MeHg exposures > 0.01 μM MeHg. SeMet co-exposure ameliorated but did not prevent changes in telencephalon cell body density. 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Zebrafish were used to model long-term learning deficits after developmental MeHg exposure. Selenomethionine (SeMet) co-exposure was used to evaluate its role in neuroprotection. Embryos were exposed from 2 to 24 h post fertilization to (1) MeHg without SeMet, (2) SeMet without MeHg and (3) in combination of MeHg and SeMet. In case (1), the levels of MeHg were 0.00, 0.01, 0.03, 0.06, 0.10, and 0.30 μM. In case (2), the levels of SeMet were 0.00. 0.03, 0.06, 0.10, and 0.30 μM. In case (3), co-exposure levels of (MeHg, SeMet) were (0.03, 0.03), (0.03, 0.06), (0.03, 0.10), (0.03, 0.30), (0.10, 0.03), (0.10, 0.06), (0.10, 0.10), and (0.10, 0.30) μM. Learning functions were tested in individual adults, 4 months after developmental exposure using a spatial alternation paradigm with food delivery on alternating sides of the aquarium. Low levels of MeHg (< 0.1 µM) exposure delayed learning in treated fish; fish exposed to higher MeHg levels were unable to learn the task; SeMet co-exposure did not prevent this deficit. These data are consistent with findings in laboratory rodents. The dorsal and lateral telencephalon are the primary brain regions in fish involved in spatial learning and memory. Adult telencephalon cell body density decreased significantly at all MeHg exposures > 0.01 μM MeHg. SeMet co-exposure ameliorated but did not prevent changes in telencephalon cell body density. In summary, MeHg affected both learning and brain structure, but SeMet only partially reversed the latter.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>19800969</pmid><doi>10.1016/j.ntt.2009.09.004</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Brain - drug effects Brain - growth & development Brain - physiopathology Cell Proliferation - drug effects Cytoprotection - drug effects Cytoprotection - physiology Danio rerio Developmental exposure Disease Models, Animal Dose-Response Relationship, Drug Emergency Female Learning Learning - drug effects Learning - physiology Learning Disorders - chemically induced Learning Disorders - drug therapy Learning Disorders - physiopathology Male Medical Education Mercury Methylmercury Compounds - antagonists & inhibitors Methylmercury Compounds - toxicity Neuroprotective Agents - pharmacology Neuroprotective Agents - therapeutic use Neuropsychological Tests Neurotoxicity Syndromes - drug therapy Neurotoxicity Syndromes - physiopathology Neurotoxins - antagonists & inhibitors Neurotoxins - toxicity Selenium Selenomethionine - pharmacology Selenomethionine - therapeutic use Space Perception - drug effects Space Perception - physiology Spatial alternation Telencephalon - drug effects Telencephalon - growth & development Telencephalon - physiopathology Treatment Outcome Zebrafish
title	Developmental selenomethionine and methylmercury exposures affect zebrafish learning
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