Rare loss of function mutations in N-methyl-d-aspartate glutamate receptors and their contributions to schizophrenia susceptibility

Yanjie Yu; Yingni Lin; Yuto Takasaki; Chenyao Wang; Hiroki Kimura; Jingrui Xing; Kanako Ishizuka; Miho Toyama; Itaru Kushima; Daisuke Mori; Yuko Arioka; Yota Uno; Tomoko Shiino; Yukako Nakamura; Takashi Okada; Mako Morikawa; Masashi Ikeda; Nakao Iwata; Yuko Okahisa; Manabu Takaki; Shinji Sakamoto; Toshiyuki Someya; Jun Egawa; Masahide Usami; Masaki Kodaira; Akira Yoshimi; Tomoko Oya-Ito; Branko Aleksic; Kinji Ohno; Norio Ozaki

doi:10.1038/s41398-017-0061-y

Rare loss of function mutations in N-methyl-d-aspartate glutamate receptors and their contributions to schizophrenia susceptibility

Yanjie Yu
, Yingni Lin
, Yuto Takasaki
, Chenyao Wang
, Hiroki Kimura
, Jingrui Xing
, Kanako Ishizuka
, Miho Toyama
, Itaru Kushima
, Daisuke Mori
, Yuko Arioka
, Yota Uno
, Tomoko Shiino
, Yukako Nakamura
, Takashi Okada
, Mako Morikawa
, Masashi Ikeda
, Nakao Iwata
, Yuko Okahisa
, Manabu Takaki

Shinji Sakamoto, Toshiyuki Someya, Jun Egawa, Masahide Usami, Masaki Kodaira, Akira Yoshimi, Tomoko Oya-Ito, Branko Aleksic, Kinji Ohno, Norio Ozaki

客員教員

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

47 被引用数 (Scopus)

抄録

In schizophrenia (SCZ) and autism spectrum disorder (ASD), the dysregulation of glutamate transmission through N-methyl-d-aspartate receptors (NMDARs) has been implicated as a potential etiological mechanism. Previous studies have accumulated evidence supporting NMDAR-encoding genes' role in etiology of SCZ and ASD. We performed a screening study for exonic regions of GRIN1, GRIN2A, GRIN2C, GRIN2D, GRIN3A, and GRIN3B, which encode NMDAR subunits, in 562 participates (370 SCZ and 192 ASD). Forty rare variants were identified including 38 missense, 1 frameshift mutation in GRIN2C and 1 splice site mutation in GRIN2D. We conducted in silico analysis for all variants and detected seven missense variants with deleterious prediction. De novo analysis was conducted if pedigree samples were available. The splice site mutation in GRIN2D is predicted to result in intron retention by minigene assay. Furthermore, the frameshift mutation in GRIN2C and splice site mutation in GRIN2D were genotyped in an independent sample set comprising 1877 SCZ cases, 382 ASD cases, and 2040 controls. Both of them were revealed to be singleton. Our study gives evidence in support of the view that ultra-rare variants with loss of function (frameshift, nonsense or splice site) in NMDARs genes may contribute to possible risk of SCZ.

本文言語	英語
論文番号	61
ジャーナル	Translational psychiatry
巻	8
号	1
DOI	https://doi.org/10.1038/s41398-017-0061-y
出版ステータス	出版済み - 01-12-2018

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All Science Journal Classification (ASJC) codes

精神医学および精神衛生
細胞および分子神経科学
生物学的精神医学

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10.1038/s41398-017-0061-y

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引用スタイル

Yu, Y., Lin, Y., Takasaki, Y., Wang, C., Kimura, H., Xing, J., Ishizuka, K., Toyama, M., Kushima, I., Mori, D., Arioka, Y., Uno, Y., Shiino, T., Nakamura, Y., Okada, T., Morikawa, M., Ikeda, M., Iwata, N., Okahisa, Y., ... Ozaki, N. (2018). Rare loss of function mutations in N-methyl-d-aspartate glutamate receptors and their contributions to schizophrenia susceptibility. Translational psychiatry, 8(1), 記事 61. https://doi.org/10.1038/s41398-017-0061-y

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title = "Rare loss of function mutations in N-methyl-d-aspartate glutamate receptors and their contributions to schizophrenia susceptibility",

abstract = "In schizophrenia (SCZ) and autism spectrum disorder (ASD), the dysregulation of glutamate transmission through N-methyl-d-aspartate receptors (NMDARs) has been implicated as a potential etiological mechanism. Previous studies have accumulated evidence supporting NMDAR-encoding genes' role in etiology of SCZ and ASD. We performed a screening study for exonic regions of GRIN1, GRIN2A, GRIN2C, GRIN2D, GRIN3A, and GRIN3B, which encode NMDAR subunits, in 562 participates (370 SCZ and 192 ASD). Forty rare variants were identified including 38 missense, 1 frameshift mutation in GRIN2C and 1 splice site mutation in GRIN2D. We conducted in silico analysis for all variants and detected seven missense variants with deleterious prediction. De novo analysis was conducted if pedigree samples were available. The splice site mutation in GRIN2D is predicted to result in intron retention by minigene assay. Furthermore, the frameshift mutation in GRIN2C and splice site mutation in GRIN2D were genotyped in an independent sample set comprising 1877 SCZ cases, 382 ASD cases, and 2040 controls. Both of them were revealed to be singleton. Our study gives evidence in support of the view that ultra-rare variants with loss of function (frameshift, nonsense or splice site) in NMDARs genes may contribute to possible risk of SCZ.",

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Yu, Y, Lin, Y, Takasaki, Y, Wang, C, Kimura, H, Xing, J, Ishizuka, K, Toyama, M, Kushima, I, Mori, D, Arioka, Y, Uno, Y, Shiino, T, Nakamura, Y, Okada, T, Morikawa, M, Ikeda, M, Iwata, N, Okahisa, Y, Takaki, M, Sakamoto, S, Someya, T, Egawa, J, Usami, M, Kodaira, M, Yoshimi, A, Oya-Ito, T, Aleksic, B, Ohno, K & Ozaki, N 2018, 'Rare loss of function mutations in N-methyl-d-aspartate glutamate receptors and their contributions to schizophrenia susceptibility', Translational psychiatry, vol. 8, no. 1, 61. https://doi.org/10.1038/s41398-017-0061-y

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AU - Yu, Yanjie

AU - Lin, Yingni

AU - Takasaki, Yuto

AU - Wang, Chenyao

AU - Kimura, Hiroki

AU - Xing, Jingrui

AU - Ishizuka, Kanako

AU - Toyama, Miho

AU - Kushima, Itaru

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AU - Arioka, Yuko

AU - Uno, Yota

AU - Shiino, Tomoko

AU - Nakamura, Yukako

AU - Okada, Takashi

AU - Morikawa, Mako

AU - Ikeda, Masashi

AU - Iwata, Nakao

AU - Okahisa, Yuko

AU - Takaki, Manabu

AU - Sakamoto, Shinji

AU - Someya, Toshiyuki

AU - Egawa, Jun

AU - Usami, Masahide

AU - Kodaira, Masaki

AU - Yoshimi, Akira

AU - Oya-Ito, Tomoko

AU - Aleksic, Branko

AU - Ohno, Kinji

AU - Ozaki, Norio

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AB - In schizophrenia (SCZ) and autism spectrum disorder (ASD), the dysregulation of glutamate transmission through N-methyl-d-aspartate receptors (NMDARs) has been implicated as a potential etiological mechanism. Previous studies have accumulated evidence supporting NMDAR-encoding genes' role in etiology of SCZ and ASD. We performed a screening study for exonic regions of GRIN1, GRIN2A, GRIN2C, GRIN2D, GRIN3A, and GRIN3B, which encode NMDAR subunits, in 562 participates (370 SCZ and 192 ASD). Forty rare variants were identified including 38 missense, 1 frameshift mutation in GRIN2C and 1 splice site mutation in GRIN2D. We conducted in silico analysis for all variants and detected seven missense variants with deleterious prediction. De novo analysis was conducted if pedigree samples were available. The splice site mutation in GRIN2D is predicted to result in intron retention by minigene assay. Furthermore, the frameshift mutation in GRIN2C and splice site mutation in GRIN2D were genotyped in an independent sample set comprising 1877 SCZ cases, 382 ASD cases, and 2040 controls. Both of them were revealed to be singleton. Our study gives evidence in support of the view that ultra-rare variants with loss of function (frameshift, nonsense or splice site) in NMDARs genes may contribute to possible risk of SCZ.

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