Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity

Shunsuke Toyoda; Masahumi Kawaguchi; Toshihiro Kobayashi; Etsuko Tarusawa; Tomoko Toyama; Masaki Okano; Masaaki Oda; Hiromitsu Nakauchi; Yumiko Yoshimura; Makoto Sanbo; Masumi Hirabayashi; Teruyoshi Hirayama; Takahiro Hirabayashi; Takeshi Yagi

doi:10.1016/j.neuron.2014.02.005

Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity

Shunsuke Toyoda, Masahumi Kawaguchi, Toshihiro Kobayashi, Etsuko Tarusawa, Tomoko Toyama, Masaki Okano, Masaaki Oda, Hiromitsu Nakauchi, Yumiko Yoshimura, Makoto Sanbo, Masumi Hirabayashi, Teruyoshi Hirayama, Takahiro Hirabayashi, Takeshi Yagi^*

^*この論文の責任著者

解剖学講座

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

99 被引用数 (Scopus)

抄録

In the brain, enormous numbers of neurons have functional individuality and distinct circuit specificities. Clustered Protocadherins (Pcdhs), diversified cell-surface proteins, are stochastically expressed by alternative promoter choice and affect dendritic arborization in individual neurons. Here we found that the Pcdh promoters are differentially methylated by the de novo DNA methyltransferase Dnmt3b during early embryogenesis. To determine this methylation's role in neurons, we produced chimeric mice from Dnmt3b-deficient induced pluripotent stem cells (iPSCs). Single-cell expression analysis revealed that individual Dnmt3b-deficient Purkinje cells expressed increased numbers of Pcdh isoforms; in vivo, they exhibited abnormal dendritic arborization. These results indicate that DNA methylation by Dnmt3b at early embryonic stages regulates the probability of expression for the stochastically expressed Pcdh isoforms. They also suggest a mechanism for a rare human recessive disease, the ICF (Immunodeficiency, Centromere instability, and Facial anomalies) syndrome, which is caused by Dnmt3b mutations.

本文言語	英語
ページ（範囲）	94-108
ページ数	15
ジャーナル	Neuron
巻	82
号	1
DOI	https://doi.org/10.1016/j.neuron.2014.02.005
出版ステータス	出版済み - 2014/04/02

ASJC Scopus 主題領域

神経科学一般

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10.1016/j.neuron.2014.02.005

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引用スタイル

Toyoda, S., Kawaguchi, M., Kobayashi, T., Tarusawa, E., Toyama, T., Okano, M., Oda, M., Nakauchi, H., Yoshimura, Y., Sanbo, M., Hirabayashi, M., Hirayama, T., Hirabayashi, T., & Yagi, T. (2014). Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity. Neuron, 82(1), 94-108. https://doi.org/10.1016/j.neuron.2014.02.005

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title = "Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity",

abstract = "In the brain, enormous numbers of neurons have functional individuality and distinct circuit specificities. Clustered Protocadherins (Pcdhs), diversified cell-surface proteins, are stochastically expressed by alternative promoter choice and affect dendritic arborization in individual neurons. Here we found that the Pcdh promoters are differentially methylated by the de novo DNA methyltransferase Dnmt3b during early embryogenesis. To determine this methylation's role in neurons, we produced chimeric mice from Dnmt3b-deficient induced pluripotent stem cells (iPSCs). Single-cell expression analysis revealed that individual Dnmt3b-deficient Purkinje cells expressed increased numbers of Pcdh isoforms; in vivo, they exhibited abnormal dendritic arborization. These results indicate that DNA methylation by Dnmt3b at early embryonic stages regulates the probability of expression for the stochastically expressed Pcdh isoforms. They also suggest a mechanism for a rare human recessive disease, the ICF (Immunodeficiency, Centromere instability, and Facial anomalies) syndrome, which is caused by Dnmt3b mutations.",

author = "Shunsuke Toyoda and Masahumi Kawaguchi and Toshihiro Kobayashi and Etsuko Tarusawa and Tomoko Toyama and Masaki Okano and Masaaki Oda and Hiromitsu Nakauchi and Yumiko Yoshimura and Makoto Sanbo and Masumi Hirabayashi and Teruyoshi Hirayama and Takahiro Hirabayashi and Takeshi Yagi",

note = "Funding Information: We thank Y. Hiraoka, H. Asakawa, and F. Murakami (Osaka University) for the use of the BioMark system and the Imaris software. We also thank members of our laboratories for their support and helpful discussions. This work was supported by a Grant-in-Aid for Scientific Research (S) (JSPS), Innovative Areas “Mesoscopic Neurocircuitry” (number 25115720 ) (to T.Y.) and “Neural Diversity and Neocortical Organization” (number 25123711 ) (to T.H.), (Comprehensive Brain Science Network) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan ; JST-CREST (to T.Y.); and in part by the Cooperative Study Program of National Institute for Physiological Sciences, Japan . ",

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Toyoda, S, Kawaguchi, M, Kobayashi, T, Tarusawa, E, Toyama, T, Okano, M, Oda, M, Nakauchi, H, Yoshimura, Y, Sanbo, M, Hirabayashi, M, Hirayama, T, Hirabayashi, T & Yagi, T 2014, 'Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity', Neuron, vol. 82, no. 1, pp. 94-108. https://doi.org/10.1016/j.neuron.2014.02.005

TY - JOUR

T1 - Developmental epigenetic modification regulates stochastic expression of clustered Protocadherin genes, generating single neuron diversity

AU - Toyoda, Shunsuke

AU - Kawaguchi, Masahumi

AU - Kobayashi, Toshihiro

AU - Tarusawa, Etsuko

AU - Toyama, Tomoko

AU - Okano, Masaki

AU - Oda, Masaaki

AU - Nakauchi, Hiromitsu

AU - Yoshimura, Yumiko

AU - Sanbo, Makoto

AU - Hirabayashi, Masumi

AU - Hirayama, Teruyoshi

AU - Hirabayashi, Takahiro

AU - Yagi, Takeshi

N1 - Funding Information: We thank Y. Hiraoka, H. Asakawa, and F. Murakami (Osaka University) for the use of the BioMark system and the Imaris software. We also thank members of our laboratories for their support and helpful discussions. This work was supported by a Grant-in-Aid for Scientific Research (S) (JSPS), Innovative Areas “Mesoscopic Neurocircuitry” (number 25115720 ) (to T.Y.) and “Neural Diversity and Neocortical Organization” (number 25123711 ) (to T.H.), (Comprehensive Brain Science Network) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan ; JST-CREST (to T.Y.); and in part by the Cooperative Study Program of National Institute for Physiological Sciences, Japan .

PY - 2014/4/2

Y1 - 2014/4/2

N2 - In the brain, enormous numbers of neurons have functional individuality and distinct circuit specificities. Clustered Protocadherins (Pcdhs), diversified cell-surface proteins, are stochastically expressed by alternative promoter choice and affect dendritic arborization in individual neurons. Here we found that the Pcdh promoters are differentially methylated by the de novo DNA methyltransferase Dnmt3b during early embryogenesis. To determine this methylation's role in neurons, we produced chimeric mice from Dnmt3b-deficient induced pluripotent stem cells (iPSCs). Single-cell expression analysis revealed that individual Dnmt3b-deficient Purkinje cells expressed increased numbers of Pcdh isoforms; in vivo, they exhibited abnormal dendritic arborization. These results indicate that DNA methylation by Dnmt3b at early embryonic stages regulates the probability of expression for the stochastically expressed Pcdh isoforms. They also suggest a mechanism for a rare human recessive disease, the ICF (Immunodeficiency, Centromere instability, and Facial anomalies) syndrome, which is caused by Dnmt3b mutations.

AB - In the brain, enormous numbers of neurons have functional individuality and distinct circuit specificities. Clustered Protocadherins (Pcdhs), diversified cell-surface proteins, are stochastically expressed by alternative promoter choice and affect dendritic arborization in individual neurons. Here we found that the Pcdh promoters are differentially methylated by the de novo DNA methyltransferase Dnmt3b during early embryogenesis. To determine this methylation's role in neurons, we produced chimeric mice from Dnmt3b-deficient induced pluripotent stem cells (iPSCs). Single-cell expression analysis revealed that individual Dnmt3b-deficient Purkinje cells expressed increased numbers of Pcdh isoforms; in vivo, they exhibited abnormal dendritic arborization. These results indicate that DNA methylation by Dnmt3b at early embryonic stages regulates the probability of expression for the stochastically expressed Pcdh isoforms. They also suggest a mechanism for a rare human recessive disease, the ICF (Immunodeficiency, Centromere instability, and Facial anomalies) syndrome, which is caused by Dnmt3b mutations.

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DO - 10.1016/j.neuron.2014.02.005

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