Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice

A recent study reveals that missense mutations of EWSR1 are associated with neurodegenerative disorders such as amyotrophic lateral sclerosis, but the function of wild-type (WT) EWSR1 in the central nervous system (CNS) is not known yet. Herein, we investigated the neuroanatomical and motor function...

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Autores principales: Yoon, Yeojun, Park, Hasang, Kim, Sangyeon, Nguyen, Phuong T., Hyeon, Seung Jae, Chung, Sooyoung, Im, Hyeonjoo, Lee, Junghee, Lee, Sean Bong, Ryu, Hoon
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Korean Society for Brain and Neural Science 2018
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Original Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5934541/
https://www.ncbi.nlm.nih.gov/pubmed/29731676
http://dx.doi.org/10.5607/en.2018.27.2.103
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author Yoon, Yeojun
Park, Hasang
Kim, Sangyeon
Nguyen, Phuong T.
Hyeon, Seung Jae
Chung, Sooyoung
Im, Hyeonjoo
Lee, Junghee
Lee, Sean Bong
Ryu, Hoon
author_facet Yoon, Yeojun
Park, Hasang
Kim, Sangyeon
Nguyen, Phuong T.
Hyeon, Seung Jae
Chung, Sooyoung
Im, Hyeonjoo
Lee, Junghee
Lee, Sean Bong
Ryu, Hoon
author_sort Yoon, Yeojun
collection PubMed
description A recent study reveals that missense mutations of EWSR1 are associated with neurodegenerative disorders such as amyotrophic lateral sclerosis, but the function of wild-type (WT) EWSR1 in the central nervous system (CNS) is not known yet. Herein, we investigated the neuroanatomical and motor function changes in Ewsr1 knock out (KO) mice. First, we quantified neuronal nucleus size in the motor cortex, dorsal striatum and hippocampus of three different groups: WT, heterozygous Ewsr1 KO (+/−), and homozygous Ewsr1 KO (−/−) mice. The neuronal nucleus size was significantly smaller in the motor cortex and striatum of homozygous Ewsr1 KO (−/−) mice than that of WT. In addition, in the hippocampus, the neuronal nucleus size was significantly smaller in both heterozygous Ewsr1 KO (+/−) and homozygous Ewsr1 KO (−/−) mice. We then assessed motor function of Ewsr1 KO (−/−) and WT mice by a tail suspension test. Both forelimb and hindlimb movements were significantly increased in Ewsr1 KO (−/−) mice. Lastly, we performed immunohistochemistry to examine the expression of TH, DARPP-32, and phosphorylated (p)-DARPP-32 (Thr75) in the striatum and substantia nigra, which are associated with dopaminergic signaling. The immunoreactivity of TH and DARPP-32 was decreased in Ewsr1 KO (−/−) mice. Together, our results suggest that EWSR1 plays a significant role in neuronal morphology, dopaminergic signaling pathways, and motor function in the CNS of mice.
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spelling pubmed-59345412018-05-05 Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice Yoon, Yeojun Park, Hasang Kim, Sangyeon Nguyen, Phuong T. Hyeon, Seung Jae Chung, Sooyoung Im, Hyeonjoo Lee, Junghee Lee, Sean Bong Ryu, Hoon Exp Neurobiol Original Article A recent study reveals that missense mutations of EWSR1 are associated with neurodegenerative disorders such as amyotrophic lateral sclerosis, but the function of wild-type (WT) EWSR1 in the central nervous system (CNS) is not known yet. Herein, we investigated the neuroanatomical and motor function changes in Ewsr1 knock out (KO) mice. First, we quantified neuronal nucleus size in the motor cortex, dorsal striatum and hippocampus of three different groups: WT, heterozygous Ewsr1 KO (+/−), and homozygous Ewsr1 KO (−/−) mice. The neuronal nucleus size was significantly smaller in the motor cortex and striatum of homozygous Ewsr1 KO (−/−) mice than that of WT. In addition, in the hippocampus, the neuronal nucleus size was significantly smaller in both heterozygous Ewsr1 KO (+/−) and homozygous Ewsr1 KO (−/−) mice. We then assessed motor function of Ewsr1 KO (−/−) and WT mice by a tail suspension test. Both forelimb and hindlimb movements were significantly increased in Ewsr1 KO (−/−) mice. Lastly, we performed immunohistochemistry to examine the expression of TH, DARPP-32, and phosphorylated (p)-DARPP-32 (Thr75) in the striatum and substantia nigra, which are associated with dopaminergic signaling. The immunoreactivity of TH and DARPP-32 was decreased in Ewsr1 KO (−/−) mice. Together, our results suggest that EWSR1 plays a significant role in neuronal morphology, dopaminergic signaling pathways, and motor function in the CNS of mice. The Korean Society for Brain and Neural Science 2018-04 2018-04-26 /pmc/articles/PMC5934541/ /pubmed/29731676 http://dx.doi.org/10.5607/en.2018.27.2.103 Text en Copyright © Experimental Neurobiology 2018. http://creativecommons.org/licenses/by-nc/4.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Article
Yoon, Yeojun
Park, Hasang
Kim, Sangyeon
Nguyen, Phuong T.
Hyeon, Seung Jae
Chung, Sooyoung
Im, Hyeonjoo
Lee, Junghee
Lee, Sean Bong
Ryu, Hoon
Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title_full Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title_fullStr Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title_full_unstemmed Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title_short Genetic Ablation of EWS RNA Binding Protein 1 (EWSR1) Leads to Neuroanatomical Changes and Motor Dysfunction in Mice
title_sort genetic ablation of ews rna binding protein 1 (ewsr1) leads to neuroanatomical changes and motor dysfunction in mice
topic Original Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5934541/
https://www.ncbi.nlm.nih.gov/pubmed/29731676
http://dx.doi.org/10.5607/en.2018.27.2.103
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