A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia

Spinocerebellar degenerations (SCDs) are a large class of sporadic or hereditary neurodegenerative disorders characterized by progressive motion defects and degenerative changes in the cerebellum and other parts of the CNS. Here we report the identification and establishment from a C57BL/6J mouse co...

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Autores principales: Miyoshi, Yuka, Yoshioka, Yoshichika, Suzuki, Kinuko, Miyazaki, Taisuke, Koura, Minako, Saigoh, Kazumasa, Kajimura, Naoko, Monobe, Yoko, Kusunoki, Susumu, Matsuda, Junichiro, Watanabe, Masahiko, Hayasaka, Naoto
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4176021/
https://www.ncbi.nlm.nih.gov/pubmed/25250835
http://dx.doi.org/10.1371/journal.pone.0107867
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author Miyoshi, Yuka
Yoshioka, Yoshichika
Suzuki, Kinuko
Miyazaki, Taisuke
Koura, Minako
Saigoh, Kazumasa
Kajimura, Naoko
Monobe, Yoko
Kusunoki, Susumu
Matsuda, Junichiro
Watanabe, Masahiko
Hayasaka, Naoto
author_facet Miyoshi, Yuka
Yoshioka, Yoshichika
Suzuki, Kinuko
Miyazaki, Taisuke
Koura, Minako
Saigoh, Kazumasa
Kajimura, Naoko
Monobe, Yoko
Kusunoki, Susumu
Matsuda, Junichiro
Watanabe, Masahiko
Hayasaka, Naoto
author_sort Miyoshi, Yuka
collection PubMed
description Spinocerebellar degenerations (SCDs) are a large class of sporadic or hereditary neurodegenerative disorders characterized by progressive motion defects and degenerative changes in the cerebellum and other parts of the CNS. Here we report the identification and establishment from a C57BL/6J mouse colony of a novel mouse line developing spontaneous progressive ataxia, which we refer to as ts3. Frequency of the phenotypic expression was consistent with an autosomal recessive Mendelian trait of inheritance, suggesting that a single gene mutation is responsible for the ataxic phenotype of this line. The onset of ataxia was observed at about three weeks of age, which slowly progressed until the hind limbs became entirely paralyzed in many cases. Micro-MRI study revealed significant cerebellar atrophy in all the ataxic mice, although individual variations were observed. Detailed histological analyses demonstrated significant atrophy of the anterior folia with reduced granule cells (GC) and abnormal morphology of cerebellar Purkinje cells (PC). Study by ultra-high voltage electron microscopy (UHVEM) further indicated aberrant morphology of PC dendrites and their spines, suggesting both morphological and functional abnormalities of the PC in the mutants. Immunohistochemical studies also revealed defects in parallel fiber (PF)–PC synapse formation and abnormal distal extension of climbing fibers (CF). Based on the phenotypic similarities of the ts3 mutant with other known ataxic mutants, we performed immunohistological analyses and found that expression levels of two genes and their products, glutamate receptor delta2 (grid2) and its ligand, cerebellin1 (Cbln1), are significantly reduced or undetectable. Finally, we sequenced the candidate genes and detected a large deletion in the coding region of the grid2 gene. Our present study suggests that ts3 is a new allele of the grid2 gene, which causes similar but different phenotypes as compared to other grid2 mutants.
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spelling pubmed-41760212014-10-02 A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia Miyoshi, Yuka Yoshioka, Yoshichika Suzuki, Kinuko Miyazaki, Taisuke Koura, Minako Saigoh, Kazumasa Kajimura, Naoko Monobe, Yoko Kusunoki, Susumu Matsuda, Junichiro Watanabe, Masahiko Hayasaka, Naoto PLoS One Research Article Spinocerebellar degenerations (SCDs) are a large class of sporadic or hereditary neurodegenerative disorders characterized by progressive motion defects and degenerative changes in the cerebellum and other parts of the CNS. Here we report the identification and establishment from a C57BL/6J mouse colony of a novel mouse line developing spontaneous progressive ataxia, which we refer to as ts3. Frequency of the phenotypic expression was consistent with an autosomal recessive Mendelian trait of inheritance, suggesting that a single gene mutation is responsible for the ataxic phenotype of this line. The onset of ataxia was observed at about three weeks of age, which slowly progressed until the hind limbs became entirely paralyzed in many cases. Micro-MRI study revealed significant cerebellar atrophy in all the ataxic mice, although individual variations were observed. Detailed histological analyses demonstrated significant atrophy of the anterior folia with reduced granule cells (GC) and abnormal morphology of cerebellar Purkinje cells (PC). Study by ultra-high voltage electron microscopy (UHVEM) further indicated aberrant morphology of PC dendrites and their spines, suggesting both morphological and functional abnormalities of the PC in the mutants. Immunohistochemical studies also revealed defects in parallel fiber (PF)–PC synapse formation and abnormal distal extension of climbing fibers (CF). Based on the phenotypic similarities of the ts3 mutant with other known ataxic mutants, we performed immunohistological analyses and found that expression levels of two genes and their products, glutamate receptor delta2 (grid2) and its ligand, cerebellin1 (Cbln1), are significantly reduced or undetectable. Finally, we sequenced the candidate genes and detected a large deletion in the coding region of the grid2 gene. Our present study suggests that ts3 is a new allele of the grid2 gene, which causes similar but different phenotypes as compared to other grid2 mutants. Public Library of Science 2014-09-24 /pmc/articles/PMC4176021/ /pubmed/25250835 http://dx.doi.org/10.1371/journal.pone.0107867 Text en © 2014 Miyoshi et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Miyoshi, Yuka
Yoshioka, Yoshichika
Suzuki, Kinuko
Miyazaki, Taisuke
Koura, Minako
Saigoh, Kazumasa
Kajimura, Naoko
Monobe, Yoko
Kusunoki, Susumu
Matsuda, Junichiro
Watanabe, Masahiko
Hayasaka, Naoto
A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title_full A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title_fullStr A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title_full_unstemmed A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title_short A New Mouse Allele of Glutamate Receptor Delta 2 with Cerebellar Atrophy and Progressive Ataxia
title_sort new mouse allele of glutamate receptor delta 2 with cerebellar atrophy and progressive ataxia
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4176021/
https://www.ncbi.nlm.nih.gov/pubmed/25250835
http://dx.doi.org/10.1371/journal.pone.0107867
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