ARHGAP10, which encodes Rho GTPase-activating protein 10, is a novel gene for schizophrenia risk

Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects a...

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Published inTranslational psychiatry Vol. 10; no. 1; p. 247
Main Authors Sekiguchi, Mariko, Sobue, Akira, Kushima, Itaru, Wang, Chenyao, Arioka, Yuko, Kato, Hidekazu, Kodama, Akiko, Kubo, Hisako, Ito, Norimichi, Sawahata, Masahito, Hada, Kazuhiro, Ikeda, Ryosuke, Shinno, Mio, Mizukoshi, Chikara, Tsujimura, Keita, Yoshimi, Akira, Ishizuka, Kanako, Takasaki, Yuto, Kimura, Hiroki, Xing, Jingrui, Yu, Yanjie, Yamamoto, Maeri, Okada, Takashi, Shishido, Emiko, Inada, Toshiya, Nakatochi, Masahiro, Takano, Tetsuya, Kuroda, Keisuke, Amano, Mutsuki, Aleksic, Branko, Yamomoto, Takashi, Sakuma, Tetsushi, Aida, Tomomi, Tanaka, Kohichi, Hashimoto, Ryota, Arai, Makoto, Ikeda, Masashi, Iwata, Nakao, Shimamura, Teppei, Nagai, Taku, Nabeshima, Toshitaka, Kaibuchi, Kozo, Yamada, Kiyofumi, Mori, Daisuke, Ozaki, Norio
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 22.07.2020
Nature Publishing Group
Subjects
631/378/340
692/420/2489
Animals
Behavioral Sciences
Biological Psychology
DNA Copy Number Variations
GTPase-Activating Proteins - genetics
Humans
Kinases
Medicine
Medicine & Public Health
Mice
Neurosciences
Pharmacotherapy
Proteins
Psychiatry
rhoA GTP-Binding Protein
Schizophrenia
Schizophrenia - genetics
Signal Transduction
Online AccessGet full text
ISSN2158-3188
2158-3188
DOI10.1038/s41398-020-00917-z

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Abstract Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects and identified a statistically significant association between SCZ and exonic CNVs in the ARHGAP10 gene. ARHGAP10 encodes a member of the RhoGAP superfamily of proteins that is involved in small GTPase signaling. This signaling pathway is one of the SCZ-associated pathways and may contribute to neural development and function. However, the ARHGAP10 gene is often confused with ARHGAP21 , thus, the significance of ARHGAP10 in the molecular pathology of SCZ, including the expression profile of the ARHGAP10 protein, remains poorly understood. To address this issue, we focused on one patient identified to have both an exonic deletion and a missense variant (p.S490P) in ARHGAP10 . The missense variant was found to be located in the RhoGAP domain and was determined to be relevant to the association between ARHGAP10 and the active form of RhoA. We evaluated ARHGAP10 protein expression in the brains of reporter mice and generated a mouse model to mimic the patient case. The model exhibited abnormal emotional behaviors, along with reduced spine density in the medial prefrontal cortex (mPFC). In addition, primary cultured neurons prepared from the mouse model brain exhibited immature neurites in vitro. Furthermore, we established induced pluripotent stem cells (iPSCs) from this patient, and differentiated them into tyrosine hydroxylase (TH)-positive neurons in order to analyze their morphological phenotypes. TH-positive neurons differentiated from the patient-derived iPSCs exhibited severe defects in both neurite length and branch number; these defects were restored by the addition of the Rho-kinase inhibitor, Y-27632. Collectively, our findings suggest that rare ARHGAP10 variants may be genetically and biologically associated with SCZ and indicate that Rho signaling represents a promising drug discovery target for SCZ treatment.
AbstractList Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects and identified a statistically significant association between SCZ and exonic CNVs in the ARHGAP10 gene. ARHGAP10 encodes a member of the RhoGAP superfamily of proteins that is involved in small GTPase signaling. This signaling pathway is one of the SCZ-associated pathways and may contribute to neural development and function. However, the ARHGAP10 gene is often confused with ARHGAP21 , thus, the significance of ARHGAP10 in the molecular pathology of SCZ, including the expression profile of the ARHGAP10 protein, remains poorly understood. To address this issue, we focused on one patient identified to have both an exonic deletion and a missense variant (p.S490P) in ARHGAP10 . The missense variant was found to be located in the RhoGAP domain and was determined to be relevant to the association between ARHGAP10 and the active form of RhoA. We evaluated ARHGAP10 protein expression in the brains of reporter mice and generated a mouse model to mimic the patient case. The model exhibited abnormal emotional behaviors, along with reduced spine density in the medial prefrontal cortex (mPFC). In addition, primary cultured neurons prepared from the mouse model brain exhibited immature neurites in vitro. Furthermore, we established induced pluripotent stem cells (iPSCs) from this patient, and differentiated them into tyrosine hydroxylase (TH)-positive neurons in order to analyze their morphological phenotypes. TH-positive neurons differentiated from the patient-derived iPSCs exhibited severe defects in both neurite length and branch number; these defects were restored by the addition of the Rho-kinase inhibitor, Y-27632. Collectively, our findings suggest that rare ARHGAP10 variants may be genetically and biologically associated with SCZ and indicate that Rho signaling represents a promising drug discovery target for SCZ treatment.
Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects and identified a statistically significant association between SCZ and exonic CNVs in the ARHGAP10 gene. ARHGAP10 encodes a member of the RhoGAP superfamily of proteins that is involved in small GTPase signaling. This signaling pathway is one of the SCZ-associated pathways and may contribute to neural development and function. However, the ARHGAP10 gene is often confused with ARHGAP21, thus, the significance of ARHGAP10 in the molecular pathology of SCZ, including the expression profile of the ARHGAP10 protein, remains poorly understood. To address this issue, we focused on one patient identified to have both an exonic deletion and a missense variant (p.S490P) in ARHGAP10. The missense variant was found to be located in the RhoGAP domain and was determined to be relevant to the association between ARHGAP10 and the active form of RhoA. We evaluated ARHGAP10 protein expression in the brains of reporter mice and generated a mouse model to mimic the patient case. The model exhibited abnormal emotional behaviors, along with reduced spine density in the medial prefrontal cortex (mPFC). In addition, primary cultured neurons prepared from the mouse model brain exhibited immature neurites in vitro. Furthermore, we established induced pluripotent stem cells (iPSCs) from this patient, and differentiated them into tyrosine hydroxylase (TH)-positive neurons in order to analyze their morphological phenotypes. TH-positive neurons differentiated from the patient-derived iPSCs exhibited severe defects in both neurite length and branch number; these defects were restored by the addition of the Rho-kinase inhibitor, Y-27632. Collectively, our findings suggest that rare ARHGAP10 variants may be genetically and biologically associated with SCZ and indicate that Rho signaling represents a promising drug discovery target for SCZ treatment.Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects and identified a statistically significant association between SCZ and exonic CNVs in the ARHGAP10 gene. ARHGAP10 encodes a member of the RhoGAP superfamily of proteins that is involved in small GTPase signaling. This signaling pathway is one of the SCZ-associated pathways and may contribute to neural development and function. However, the ARHGAP10 gene is often confused with ARHGAP21, thus, the significance of ARHGAP10 in the molecular pathology of SCZ, including the expression profile of the ARHGAP10 protein, remains poorly understood. To address this issue, we focused on one patient identified to have both an exonic deletion and a missense variant (p.S490P) in ARHGAP10. The missense variant was found to be located in the RhoGAP domain and was determined to be relevant to the association between ARHGAP10 and the active form of RhoA. We evaluated ARHGAP10 protein expression in the brains of reporter mice and generated a mouse model to mimic the patient case. The model exhibited abnormal emotional behaviors, along with reduced spine density in the medial prefrontal cortex (mPFC). In addition, primary cultured neurons prepared from the mouse model brain exhibited immature neurites in vitro. Furthermore, we established induced pluripotent stem cells (iPSCs) from this patient, and differentiated them into tyrosine hydroxylase (TH)-positive neurons in order to analyze their morphological phenotypes. TH-positive neurons differentiated from the patient-derived iPSCs exhibited severe defects in both neurite length and branch number; these defects were restored by the addition of the Rho-kinase inhibitor, Y-27632. Collectively, our findings suggest that rare ARHGAP10 variants may be genetically and biologically associated with SCZ and indicate that Rho signaling represents a promising drug discovery target for SCZ treatment.
Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis. Therefore, in this study, we performed genome-wide copy-number variation (CNV) analysis of 2940 patients with SCZ and 2402 control subjects and identified a statistically significant association between SCZ and exonic CNVs in the ARHGAP10 gene. ARHGAP10 encodes a member of the RhoGAP superfamily of proteins that is involved in small GTPase signaling. This signaling pathway is one of the SCZ-associated pathways and may contribute to neural development and function. However, the ARHGAP10 gene is often confused with ARHGAP21, thus, the significance of ARHGAP10 in the molecular pathology of SCZ, including the expression profile of the ARHGAP10 protein, remains poorly understood. To address this issue, we focused on one patient identified to have both an exonic deletion and a missense variant (p.S490P) in ARHGAP10. The missense variant was found to be located in the RhoGAP domain and was determined to be relevant to the association between ARHGAP10 and the active form of RhoA. We evaluated ARHGAP10 protein expression in the brains of reporter mice and generated a mouse model to mimic the patient case. The model exhibited abnormal emotional behaviors, along with reduced spine density in the medial prefrontal cortex (mPFC). In addition, primary cultured neurons prepared from the mouse model brain exhibited immature neurites in vitro. Furthermore, we established induced pluripotent stem cells (iPSCs) from this patient, and differentiated them into tyrosine hydroxylase (TH)-positive neurons in order to analyze their morphological phenotypes. TH-positive neurons differentiated from the patient-derived iPSCs exhibited severe defects in both neurite length and branch number; these defects were restored by the addition of the Rho-kinase inhibitor, Y-27632. Collectively, our findings suggest that rare ARHGAP10 variants may be genetically and biologically associated with SCZ and indicate that Rho signaling represents a promising drug discovery target for SCZ treatment.
ArticleNumber 247
Author Arai, Makoto
Yu, Yanjie
Kato, Hidekazu
Kushima, Itaru
Yamomoto, Takashi
Ozaki, Norio
Takano, Tetsuya
Amano, Mutsuki
Nagai, Taku
Ishizuka, Kanako
Wang, Chenyao
Kuroda, Keisuke
Sekiguchi, Mariko
Sobue, Akira
Shishido, Emiko
Inada, Toshiya
Kimura, Hiroki
Hashimoto, Ryota
Okada, Takashi
Shimamura, Teppei
Mori, Daisuke
Yamamoto, Maeri
Shinno, Mio
Kodama, Akiko
Ikeda, Ryosuke
Xing, Jingrui
Aleksic, Branko
Nakatochi, Masahiro
Ikeda, Masashi
Kubo, Hisako
Mizukoshi, Chikara
Yoshimi, Akira
Tanaka, Kohichi
Takasaki, Yuto
Iwata, Nakao
Yamada, Kiyofumi
Ito, Norimichi
Sawahata, Masahito
Aida, Tomomi
Nabeshima, Toshitaka
Arioka, Yuko
Hada, Kazuhiro
Tsujimura, Keita
Sakuma, Tetsushi
Kaibuchi, Kozo
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/32699248$$D View this record in MEDLINE/PubMed
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10.1186/s13041-016-0267-6
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Snippet Schizophrenia (SCZ) is known to be a heritable disorder; however, its multifactorial nature has significantly hampered attempts to establish its pathogenesis....
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SubjectTerms 631/378/340
692/420/2489
Animals
Behavioral Sciences
Biological Psychology
DNA Copy Number Variations
GTPase-Activating Proteins - genetics
Humans
Kinases
Medicine
Medicine & Public Health
Mice
Neurosciences
Pharmacotherapy
Proteins
Psychiatry
rhoA GTP-Binding Protein
Schizophrenia
Schizophrenia - genetics
Signal Transduction
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Title ARHGAP10, which encodes Rho GTPase-activating protein 10, is a novel gene for schizophrenia risk
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Volume 10
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