New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach

Anna Alkelai; Lior Greenbaum; Erin L. Heinzen; Evan H. Baugh; Alexander Teitelbaum; Xiaolin Zhu; Rael D. Strous; Pavel Tatarskyy; Clement C. Zai; Arun K. Tiwari; Maria Tampakeras; Natalie Freeman; Daniel J. Müller; Aristotle N. Voineskos; Jeffrey A. Lieberman; Shannon L. Delaney; Herbert Y. Meltzer; Gary Remington; James L. Kennedy; Ann E. Pulver; Emma P. Peabody; Deborah L. Levy; Bernard Lerer

doi:10.1016/j.pnpbp.2019.109659

New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach

Anna Alkelai, Lior Greenbaum, Erin L. Heinzen, Evan H. Baugh, Alexander Teitelbaum, Xiaolin Zhu, Rael D. Strous, Pavel Tatarskyy, Clement C. Zai, Arun K. Tiwari, Maria Tampakeras, Natalie Freeman, Daniel J. Müller, Aristotle N. Voineskos, Jeffrey A. Lieberman, Shannon L. Delaney, Herbert Y. Meltzer, Gary Remington, James L. Kennedy, Ann E. PulverEmma P. Peabody, Deborah L. Levy, Bernard Lerer

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Tardive dyskinesia (TD) is an adverse movement disorder induced by chronic treatment with antipsychotics drugs. The contribution of common genetic variants to TD susceptibility has been investigated in recent years, but with limited success. The aim of the current study was to investigate the potential contribution of rare variants to TD vulnerability. In order to identify TD risk genes, we performed whole-exome sequencing (WES) and gene-based collapsing analysis focusing on rare (allele frequency < 1%) and putatively deleterious variants (qualifying variants). 82 Jewish schizophrenia patients chronically treated with antipsychotics were included and classified as having severe TD or lack of any abnormal movements based on a rigorous definition of the TD phenotype. First, we performed a case-control, exome-wide collapsing analysis comparing 39 schizophrenia patients with severe TD to 3118 unrelated population controls. Then, we checked the potential top candidate genes among 43 patients without any TD manifestations. All the genes that were found to harbor one or more qualifying variants in patients without any TD features were excluded from the final list of candidate genes. Only one gene, regulating synaptic membrane exocytosis 2 (RIMS2), showed significant enrichment of qualifying variants in TD patients compared with unrelated population controls after correcting for multiple testing (Fisher's exact test p = 5.32E−08, logistic regression p = 2.50E−08). Enrichment was caused by a single variant (rs567070433) due to a frameshift in an alternative transcript of RIMS2. None of the TD negative patients had qualifying variants in this gene. In a validation cohort of 140 schizophrenia patients assessed for TD, the variant was also not detected in any individual. Some potentially suggestive TD genes were detected in the TD cohort and warrant follow-up in future studies. No significant enrichment in previously reported TD candidate genes was identified. To the best of our knowledge, this is the first WES study of TD, demonstrating the potential role of rare loss-of-function variant enrichment in this pharmacogenetic phenotype.

Original language	English (US)
Article number	109659
Journal	Progress in Neuro-Psychopharmacology and Biological Psychiatry
Volume	94
DOIs	https://doi.org/10.1016/j.pnpbp.2019.109659
State	Published - Aug 30 2019
Externally published	Yes

Keywords

Collapsing
RIMS2
Tardive dyskinesia
WES

ASJC Scopus subject areas

Pharmacology
Biological Psychiatry

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10.1016/j.pnpbp.2019.109659

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Alkelai, A., Greenbaum, L., Heinzen, E. L., Baugh, E. H., Teitelbaum, A., Zhu, X., Strous, R. D., Tatarskyy, P., Zai, C. C., Tiwari, A. K., Tampakeras, M., Freeman, N., Müller, D. J., Voineskos, A. N., Lieberman, J. A., Delaney, S. L., Meltzer, H. Y., Remington, G., Kennedy, J. L., ... Lerer, B. (2019). New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 94, Article 109659. https://doi.org/10.1016/j.pnpbp.2019.109659

Alkelai, A, Greenbaum, L, Heinzen, EL, Baugh, EH, Teitelbaum, A, Zhu, X, Strous, RD, Tatarskyy, P, Zai, CC, Tiwari, AK, Tampakeras, M, Freeman, N, Müller, DJ, Voineskos, AN, Lieberman, JA, Delaney, SL, Meltzer, HY, Remington, G, Kennedy, JL, Pulver, AE, Peabody, EP, Levy, DL & Lerer, B 2019, 'New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach', Progress in Neuro-Psychopharmacology and Biological Psychiatry, vol. 94, 109659. https://doi.org/10.1016/j.pnpbp.2019.109659

@article{b367efa3145943bf9c5c08fdd6643fdd,

title = "New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach",

abstract = "Tardive dyskinesia (TD) is an adverse movement disorder induced by chronic treatment with antipsychotics drugs. The contribution of common genetic variants to TD susceptibility has been investigated in recent years, but with limited success. The aim of the current study was to investigate the potential contribution of rare variants to TD vulnerability. In order to identify TD risk genes, we performed whole-exome sequencing (WES) and gene-based collapsing analysis focusing on rare (allele frequency < 1%) and putatively deleterious variants (qualifying variants). 82 Jewish schizophrenia patients chronically treated with antipsychotics were included and classified as having severe TD or lack of any abnormal movements based on a rigorous definition of the TD phenotype. First, we performed a case-control, exome-wide collapsing analysis comparing 39 schizophrenia patients with severe TD to 3118 unrelated population controls. Then, we checked the potential top candidate genes among 43 patients without any TD manifestations. All the genes that were found to harbor one or more qualifying variants in patients without any TD features were excluded from the final list of candidate genes. Only one gene, regulating synaptic membrane exocytosis 2 (RIMS2), showed significant enrichment of qualifying variants in TD patients compared with unrelated population controls after correcting for multiple testing (Fisher's exact test p = 5.32E−08, logistic regression p = 2.50E−08). Enrichment was caused by a single variant (rs567070433) due to a frameshift in an alternative transcript of RIMS2. None of the TD negative patients had qualifying variants in this gene. In a validation cohort of 140 schizophrenia patients assessed for TD, the variant was also not detected in any individual. Some potentially suggestive TD genes were detected in the TD cohort and warrant follow-up in future studies. No significant enrichment in previously reported TD candidate genes was identified. To the best of our knowledge, this is the first WES study of TD, demonstrating the potential role of rare loss-of-function variant enrichment in this pharmacogenetic phenotype.",

keywords = "Collapsing, RIMS2, Tardive dyskinesia, WES",

author = "Anna Alkelai and Lior Greenbaum and Heinzen, {Erin L.} and Baugh, {Evan H.} and Alexander Teitelbaum and Xiaolin Zhu and Strous, {Rael D.} and Pavel Tatarskyy and Zai, {Clement C.} and Tiwari, {Arun K.} and Maria Tampakeras and Natalie Freeman and M{\"u}ller, {Daniel J.} and Voineskos, {Aristotle N.} and Lieberman, {Jeffrey A.} and Delaney, {Shannon L.} and Meltzer, {Herbert Y.} and Gary Remington and Kennedy, {James L.} and Pulver, {Ann E.} and Peabody, {Emma P.} and Levy, {Deborah L.} and Bernard Lerer",

note = "Funding Information: Genotyping and analysis in the validation cohort was supported by the Ministry of Research and Innovation of Ontario and the CAMH Pharmacogenetic Program at the Tanenbaum Centre for Pharmacogenetics. Funding Information: The collection and sequencing of control schizophrenia samples was funded by National Institute of Mental Health ( 5U01MH105670 ). We thank the patients and controls who participated in this study. Publisher Copyright: {\textcopyright} 2019",

year = "2019",

month = aug,

day = "30",

doi = "10.1016/j.pnpbp.2019.109659",

language = "English (US)",

volume = "94",

journal = "Progress in Neuro-Psychopharmacology and Biological Psychiatry",

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T2 - Implementation of whole-exome sequencing approach

AU - Alkelai, Anna

AU - Greenbaum, Lior

AU - Heinzen, Erin L.

AU - Baugh, Evan H.

AU - Teitelbaum, Alexander

AU - Zhu, Xiaolin

AU - Strous, Rael D.

AU - Tatarskyy, Pavel

AU - Zai, Clement C.

AU - Tiwari, Arun K.

AU - Tampakeras, Maria

AU - Freeman, Natalie

AU - Müller, Daniel J.

AU - Voineskos, Aristotle N.

AU - Lieberman, Jeffrey A.

AU - Delaney, Shannon L.

AU - Meltzer, Herbert Y.

AU - Remington, Gary

AU - Kennedy, James L.

AU - Pulver, Ann E.

AU - Peabody, Emma P.

AU - Levy, Deborah L.

AU - Lerer, Bernard

N1 - Funding Information: Genotyping and analysis in the validation cohort was supported by the Ministry of Research and Innovation of Ontario and the CAMH Pharmacogenetic Program at the Tanenbaum Centre for Pharmacogenetics. Funding Information: The collection and sequencing of control schizophrenia samples was funded by National Institute of Mental Health ( 5U01MH105670 ). We thank the patients and controls who participated in this study. Publisher Copyright: © 2019

PY - 2019/8/30

Y1 - 2019/8/30

N2 - Tardive dyskinesia (TD) is an adverse movement disorder induced by chronic treatment with antipsychotics drugs. The contribution of common genetic variants to TD susceptibility has been investigated in recent years, but with limited success. The aim of the current study was to investigate the potential contribution of rare variants to TD vulnerability. In order to identify TD risk genes, we performed whole-exome sequencing (WES) and gene-based collapsing analysis focusing on rare (allele frequency < 1%) and putatively deleterious variants (qualifying variants). 82 Jewish schizophrenia patients chronically treated with antipsychotics were included and classified as having severe TD or lack of any abnormal movements based on a rigorous definition of the TD phenotype. First, we performed a case-control, exome-wide collapsing analysis comparing 39 schizophrenia patients with severe TD to 3118 unrelated population controls. Then, we checked the potential top candidate genes among 43 patients without any TD manifestations. All the genes that were found to harbor one or more qualifying variants in patients without any TD features were excluded from the final list of candidate genes. Only one gene, regulating synaptic membrane exocytosis 2 (RIMS2), showed significant enrichment of qualifying variants in TD patients compared with unrelated population controls after correcting for multiple testing (Fisher's exact test p = 5.32E−08, logistic regression p = 2.50E−08). Enrichment was caused by a single variant (rs567070433) due to a frameshift in an alternative transcript of RIMS2. None of the TD negative patients had qualifying variants in this gene. In a validation cohort of 140 schizophrenia patients assessed for TD, the variant was also not detected in any individual. Some potentially suggestive TD genes were detected in the TD cohort and warrant follow-up in future studies. No significant enrichment in previously reported TD candidate genes was identified. To the best of our knowledge, this is the first WES study of TD, demonstrating the potential role of rare loss-of-function variant enrichment in this pharmacogenetic phenotype.

AB - Tardive dyskinesia (TD) is an adverse movement disorder induced by chronic treatment with antipsychotics drugs. The contribution of common genetic variants to TD susceptibility has been investigated in recent years, but with limited success. The aim of the current study was to investigate the potential contribution of rare variants to TD vulnerability. In order to identify TD risk genes, we performed whole-exome sequencing (WES) and gene-based collapsing analysis focusing on rare (allele frequency < 1%) and putatively deleterious variants (qualifying variants). 82 Jewish schizophrenia patients chronically treated with antipsychotics were included and classified as having severe TD or lack of any abnormal movements based on a rigorous definition of the TD phenotype. First, we performed a case-control, exome-wide collapsing analysis comparing 39 schizophrenia patients with severe TD to 3118 unrelated population controls. Then, we checked the potential top candidate genes among 43 patients without any TD manifestations. All the genes that were found to harbor one or more qualifying variants in patients without any TD features were excluded from the final list of candidate genes. Only one gene, regulating synaptic membrane exocytosis 2 (RIMS2), showed significant enrichment of qualifying variants in TD patients compared with unrelated population controls after correcting for multiple testing (Fisher's exact test p = 5.32E−08, logistic regression p = 2.50E−08). Enrichment was caused by a single variant (rs567070433) due to a frameshift in an alternative transcript of RIMS2. None of the TD negative patients had qualifying variants in this gene. In a validation cohort of 140 schizophrenia patients assessed for TD, the variant was also not detected in any individual. Some potentially suggestive TD genes were detected in the TD cohort and warrant follow-up in future studies. No significant enrichment in previously reported TD candidate genes was identified. To the best of our knowledge, this is the first WES study of TD, demonstrating the potential role of rare loss-of-function variant enrichment in this pharmacogenetic phenotype.

KW - Collapsing

KW - RIMS2

KW - Tardive dyskinesia

KW - WES

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New insights into tardive dyskinesia genetics: Implementation of whole-exome sequencing approach

Abstract

Keywords

ASJC Scopus subject areas

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