Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)

Mercury (Hg) in its elemental form is not effectively absorbed into the body until a methyl group is bound to an atom of Hg, creating methylmercury. Methylmercury (MeHg) is then readily absorbed from the digestive tract, and has demonstrated neurotoxic effects in both the developing and mature centr...

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Main Author:	Aguilar, Sonny
Other Authors:	Abbott, Louise C, Zoran, Mark J, Pine, Michelle D
Format:	Thesis
Language:	English
Published:	2015
Subjects:	Louise C. Abbott labbott@cvm.tamu.edu Mark J. Zoran zoran@science.tamu.edu Michelle D. Pine mpine@cvm.tamu.edu Faroe Islands Abbott
Online Access:	http://hdl.handle.net/1969.1/153858

id	fttexasamuniv:oai:repository.tamu.edu:1969.1/153858
record_format	openpolar
spelling	fttexasamuniv:oai:repository.tamu.edu:1969.1/153858 2023-05-15T16:11:01+02:00 Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio) Aguilar, Sonny Abbott, Louise C Zoran, Mark J Pine, Michelle D 2015-04-28T15:21:41Z application/pdf http://hdl.handle.net/1969.1/153858 en eng http://hdl.handle.net/1969.1/153858 Louise C. Abbott labbott@cvm.tamu.edu Mark J. Zoran zoran@science.tamu.edu Michelle D. Pine mpine@cvm.tamu.edu Thesis text 2015 fttexasamuniv 2015-05-02T22:10:54Z Mercury (Hg) in its elemental form is not effectively absorbed into the body until a methyl group is bound to an atom of Hg, creating methylmercury. Methylmercury (MeHg) is then readily absorbed from the digestive tract, and has demonstrated neurotoxic effects in both the developing and mature central nervous system (CNS). Previous studies have shown that exposure to high concentrations of MeHg results in both high morbidity and mortality rates demonstrated by cases of exposure I n the Faroe Islands, Japan and Iraq. Common symptoms exhibited after high exposure to MeHg included sensory disturbances in adults, while children demonstrate anatomical abnormalities and cognitive defects. Recent zebrafish studies have demonstrated decreased hatching rate, movement, and length along with abnormal/disorganized skeletal muscle, and heart related problems. To better understand the neurotoxic mechanisms of MeHg on zebrafish development, we investigated overall embryo growth, various aspects of heart development, and neuromuscular junction (NMJ) development. Using zebrafish embryos (ZFEs) as an animal model this study revealed that MeHg exposure for 24 hours had an effect on ZFEs , resulting in decreased heart rate, body length, elicited movement and spontaneous movement, including the number of times ZFEs spontaneously moved during the assessment time of one minute. MeHg exposure in ZFEs had no significant effect on mortality rate, hatching rate, yolk sac area, heart volume ventricle thickness, and pericardial cavity volume, as well as clustering of acetylcholine receptors (AChRs) and presynaptic vesicle aggregates at the NMJ. This study has confirmed previous reports in the literature that MeHg exposure has adverse effects on the general development of ZFEs. MeHg exposure also had adverse effects on heart development as well as skeletal muscle development, which adversely effected movement. Exposure to 24 hours of low concentrations of MeHg is likely to result in functional deficits that are not reflected in obvious morphologic deficits. Thesis Faroe Islands Texas A&M University Digital Repository Faroe Islands Abbott ENVELOPE(-62.133,-62.133,-64.100,-64.100)
institution	Open Polar
collection	Texas A&M University Digital Repository
op_collection_id	fttexasamuniv
language	English
topic	Louise C. Abbott labbott@cvm.tamu.edu Mark J. Zoran zoran@science.tamu.edu Michelle D. Pine mpine@cvm.tamu.edu
spellingShingle	Louise C. Abbott labbott@cvm.tamu.edu Mark J. Zoran zoran@science.tamu.edu Michelle D. Pine mpine@cvm.tamu.edu Aguilar, Sonny Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
topic_facet	Louise C. Abbott labbott@cvm.tamu.edu Mark J. Zoran zoran@science.tamu.edu Michelle D. Pine mpine@cvm.tamu.edu
description	Mercury (Hg) in its elemental form is not effectively absorbed into the body until a methyl group is bound to an atom of Hg, creating methylmercury. Methylmercury (MeHg) is then readily absorbed from the digestive tract, and has demonstrated neurotoxic effects in both the developing and mature central nervous system (CNS). Previous studies have shown that exposure to high concentrations of MeHg results in both high morbidity and mortality rates demonstrated by cases of exposure I n the Faroe Islands, Japan and Iraq. Common symptoms exhibited after high exposure to MeHg included sensory disturbances in adults, while children demonstrate anatomical abnormalities and cognitive defects. Recent zebrafish studies have demonstrated decreased hatching rate, movement, and length along with abnormal/disorganized skeletal muscle, and heart related problems. To better understand the neurotoxic mechanisms of MeHg on zebrafish development, we investigated overall embryo growth, various aspects of heart development, and neuromuscular junction (NMJ) development. Using zebrafish embryos (ZFEs) as an animal model this study revealed that MeHg exposure for 24 hours had an effect on ZFEs , resulting in decreased heart rate, body length, elicited movement and spontaneous movement, including the number of times ZFEs spontaneously moved during the assessment time of one minute. MeHg exposure in ZFEs had no significant effect on mortality rate, hatching rate, yolk sac area, heart volume ventricle thickness, and pericardial cavity volume, as well as clustering of acetylcholine receptors (AChRs) and presynaptic vesicle aggregates at the NMJ. This study has confirmed previous reports in the literature that MeHg exposure has adverse effects on the general development of ZFEs. MeHg exposure also had adverse effects on heart development as well as skeletal muscle development, which adversely effected movement. Exposure to 24 hours of low concentrations of MeHg is likely to result in functional deficits that are not reflected in obvious morphologic deficits.
author2	Abbott, Louise C Zoran, Mark J Pine, Michelle D
format	Thesis
author	Aguilar, Sonny
author_facet	Aguilar, Sonny
author_sort	Aguilar, Sonny
title	Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
title_short	Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
title_full	Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
title_fullStr	Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
title_full_unstemmed	Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)
title_sort	effect of methylmercury exposure on heart and skeletal muscle development in zebrafish embryos (danio rerio)
publishDate	2015
url	http://hdl.handle.net/1969.1/153858
long_lat	ENVELOPE(-62.133,-62.133,-64.100,-64.100)
geographic	Faroe Islands Abbott
geographic_facet	Faroe Islands Abbott
genre	Faroe Islands
genre_facet	Faroe Islands
op_relation	http://hdl.handle.net/1969.1/153858
_version_	1765996146552995840

Effect of Methylmercury Exposure on Heart and Skeletal Muscle Development in Zebrafish Embryos (Danio Rerio)

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