Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder

Cross-Disorder Working Group of the Psychiatric Genomics Consortium

doi:10.1016/j.ajhg.2014.12.006

Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder

Cross-Disorder Working Group of the Psychiatric Genomics Consortium

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

188 Citas (Scopus)

Resumen

Genetic risk prediction has several potential applications in medical research and clinical practice and could be used, for example, to stratify a heterogeneous population of patients by their predicted genetic risk. However, for polygenic traits, such as psychiatric disorders, the accuracy of risk prediction is low. Here we use a multivariate linear mixed model and apply multi-trait genomic best linear unbiased prediction for genetic risk prediction. This method exploits correlations between disorders and simultaneously evaluates individual risk for each disorder. We show that the multivariate approach significantly increases the prediction accuracy for schizophrenia, bipolar disorder, and major depressive disorder in the discovery as well as in independent validation datasets. By grouping SNPs based on genome annotation and fitting multiple random effects, we show that the prediction accuracy could be further improved. The gain in prediction accuracy of the multivariate approach is equivalent to an increase in sample size of 34% for schizophrenia, 68% for bipolar disorder, and 76% for major depressive disorders using single trait models. Because our approach can be readily applied to any number of GWAS datasets of correlated traits, it is a flexible and powerful tool to maximize prediction accuracy. With current sample size, risk predictors are not useful in a clinical setting but already are a valuable research tool, for example in experimental designs comparing cases with high and low polygenic risk.

Idioma original	English
Páginas (desde-hasta)	283-294
Número de páginas	12
Publicación	American Journal of Human Genetics
Volumen	96
N.º	2
DOI	https://doi.org/10.1016/j.ajhg.2014.12.006
Estado	Published - feb. 5 2015
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
This study was supported by the Australian Research Council (FT0991360 and DE130100614) and the National Health and Medical Research Council (613608, 1011506, 1047956, and 1080157). The Psychiatric Genomics Consortium is supported by National Institute of Mental Health (NIMH) grant U01 MH085520. We acknowledge the funding that supported the Swedish schizophrenia study (NIMH R01 MH077139), the Stanley Center for Psychiatric Research, the Sylvan Herman Foundation, the Karolinska Institutet, Karolinska University Hospital, the Swedish Research Council, the Stockholm County Council, the Söderström Königska Foundation, and the Netherlands Scientific Organization (NWO 645-000-003). Statistical analyses were carried out on the Genetic Cluster Computer, which is financially supported by the Netherlands Scientific Organization (NOW; 480- 05-003). The GenRED GWAS project was supported by NIMH R01 grants MH061686 (D.F.L.), MH059542 (W.C.), MH075131 (W.B. Lawson), MH059552 (J.B.P.), MH059541 (W.A.S.), and MH060912 (M.M.W.).

Publisher Copyright:
© 2015 The Authors. This is an open access article under the CC BY-NC-ND license.

ASJC Scopus Subject Areas

Genetics
Genetics(clinical)

PubMed: MeSH publication types

Journal Article
Research Support, N.I.H., Extramural
Research Support, Non-U.S. Gov't

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10.1016/j.ajhg.2014.12.006

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Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder. / Cross-Disorder Working Group of the Psychiatric Genomics Consortium.
En: American Journal of Human Genetics, Vol. 96, N.º 2, 05.02.2015, p. 283-294.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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title = "Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder",

abstract = "Genetic risk prediction has several potential applications in medical research and clinical practice and could be used, for example, to stratify a heterogeneous population of patients by their predicted genetic risk. However, for polygenic traits, such as psychiatric disorders, the accuracy of risk prediction is low. Here we use a multivariate linear mixed model and apply multi-trait genomic best linear unbiased prediction for genetic risk prediction. This method exploits correlations between disorders and simultaneously evaluates individual risk for each disorder. We show that the multivariate approach significantly increases the prediction accuracy for schizophrenia, bipolar disorder, and major depressive disorder in the discovery as well as in independent validation datasets. By grouping SNPs based on genome annotation and fitting multiple random effects, we show that the prediction accuracy could be further improved. The gain in prediction accuracy of the multivariate approach is equivalent to an increase in sample size of 34% for schizophrenia, 68% for bipolar disorder, and 76% for major depressive disorders using single trait models. Because our approach can be readily applied to any number of GWAS datasets of correlated traits, it is a flexible and powerful tool to maximize prediction accuracy. With current sample size, risk predictors are not useful in a clinical setting but already are a valuable research tool, for example in experimental designs comparing cases with high and low polygenic risk.",

author = "{Cross-Disorder Working Group of the Psychiatric Genomics Consortium} and Robert Maier and Gerhard Moser and Chen, {Guo Bo} and Stephan Ripke and Coryell, {William H.} and Potash, {James B.} and Scheftner, {William A.} and Jianxin Shi and Weissman, {Myrna M.} and Hultman, {Christina M.} and Mikael Land{\'e}n and Levinson, {Douglas F.} and Kendler, {Kenneth S.} and Smoller, {Jordan W.} and Wray, {Naomi R.} and Lee, {S. Hong} and Devin Absher and Ingrid Agartz and Huda Akil and Farooq Amin and Andreassen, {Ole A.} and Adebayo Anjorin and Richard Anney and Arking, {Dan E.} and Philip Asherson and Azevedo, {Maria H.} and Lena Backlund and Badner, {Judith A.} and Bailey, {Anthony J.} and Tobias Banaschewski and Barchas, {Jack D.} and Barnes, {Michael R.} and Barrett, {Thomas B.} and Nicholas Bass and Agatino Battaglia and Michael Bauer and M{\`o}nica Bay{\'e}s and Frank Bellivier and Bergen, {Sarah E.} and Wade Berrettini and Catalina Betancur and Thomas Bettecken and Joseph Biederman and Binder, {Elisabeth B.} and Black, {Donald W.} and Blackwood, {Douglas H.R.} and Bloss, {Cinnamon S.} and Michael Boehnke and Boomsma, {Dorret I.} and Sandra Meier",

note = "Funding Information: This study was supported by the Australian Research Council (FT0991360 and DE130100614) and the National Health and Medical Research Council (613608, 1011506, 1047956, and 1080157). The Psychiatric Genomics Consortium is supported by National Institute of Mental Health (NIMH) grant U01 MH085520. We acknowledge the funding that supported the Swedish schizophrenia study (NIMH R01 MH077139), the Stanley Center for Psychiatric Research, the Sylvan Herman Foundation, the Karolinska Institutet, Karolinska University Hospital, the Swedish Research Council, the Stockholm County Council, the S{\"o}derstr{\"o}m K{\"o}nigska Foundation, and the Netherlands Scientific Organization (NWO 645-000-003). Statistical analyses were carried out on the Genetic Cluster Computer, which is financially supported by the Netherlands Scientific Organization (NOW; 480- 05-003). The GenRED GWAS project was supported by NIMH R01 grants MH061686 (D.F.L.), MH059542 (W.C.), MH075131 (W.B. Lawson), MH059552 (J.B.P.), MH059541 (W.A.S.), and MH060912 (M.M.W.). Publisher Copyright: {\textcopyright} 2015 The Authors. This is an open access article under the CC BY-NC-ND license.",

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doi = "10.1016/j.ajhg.2014.12.006",

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T1 - Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder

AU - Cross-Disorder Working Group of the Psychiatric Genomics Consortium

AU - Maier, Robert

AU - Moser, Gerhard

AU - Chen, Guo Bo

AU - Ripke, Stephan

AU - Coryell, William H.

AU - Potash, James B.

AU - Scheftner, William A.

AU - Shi, Jianxin

AU - Weissman, Myrna M.

AU - Hultman, Christina M.

AU - Landén, Mikael

AU - Levinson, Douglas F.

AU - Kendler, Kenneth S.

AU - Smoller, Jordan W.

AU - Wray, Naomi R.

AU - Lee, S. Hong

AU - Absher, Devin

AU - Agartz, Ingrid

AU - Akil, Huda

AU - Amin, Farooq

AU - Andreassen, Ole A.

AU - Anjorin, Adebayo

AU - Anney, Richard

AU - Arking, Dan E.

AU - Asherson, Philip

AU - Azevedo, Maria H.

AU - Backlund, Lena

AU - Badner, Judith A.

AU - Bailey, Anthony J.

AU - Banaschewski, Tobias

AU - Barchas, Jack D.

AU - Barnes, Michael R.

AU - Barrett, Thomas B.

AU - Bass, Nicholas

AU - Battaglia, Agatino

AU - Bauer, Michael

AU - Bayés, Mònica

AU - Bellivier, Frank

AU - Bergen, Sarah E.

AU - Berrettini, Wade

AU - Betancur, Catalina

AU - Bettecken, Thomas

AU - Biederman, Joseph

AU - Binder, Elisabeth B.

AU - Black, Donald W.

AU - Blackwood, Douglas H.R.

AU - Bloss, Cinnamon S.

AU - Boehnke, Michael

AU - Boomsma, Dorret I.

AU - Meier, Sandra

N1 - Funding Information: This study was supported by the Australian Research Council (FT0991360 and DE130100614) and the National Health and Medical Research Council (613608, 1011506, 1047956, and 1080157). The Psychiatric Genomics Consortium is supported by National Institute of Mental Health (NIMH) grant U01 MH085520. We acknowledge the funding that supported the Swedish schizophrenia study (NIMH R01 MH077139), the Stanley Center for Psychiatric Research, the Sylvan Herman Foundation, the Karolinska Institutet, Karolinska University Hospital, the Swedish Research Council, the Stockholm County Council, the Söderström Königska Foundation, and the Netherlands Scientific Organization (NWO 645-000-003). Statistical analyses were carried out on the Genetic Cluster Computer, which is financially supported by the Netherlands Scientific Organization (NOW; 480- 05-003). The GenRED GWAS project was supported by NIMH R01 grants MH061686 (D.F.L.), MH059542 (W.C.), MH075131 (W.B. Lawson), MH059552 (J.B.P.), MH059541 (W.A.S.), and MH060912 (M.M.W.). Publisher Copyright: © 2015 The Authors. This is an open access article under the CC BY-NC-ND license.

PY - 2015/2/5

Y1 - 2015/2/5

N2 - Genetic risk prediction has several potential applications in medical research and clinical practice and could be used, for example, to stratify a heterogeneous population of patients by their predicted genetic risk. However, for polygenic traits, such as psychiatric disorders, the accuracy of risk prediction is low. Here we use a multivariate linear mixed model and apply multi-trait genomic best linear unbiased prediction for genetic risk prediction. This method exploits correlations between disorders and simultaneously evaluates individual risk for each disorder. We show that the multivariate approach significantly increases the prediction accuracy for schizophrenia, bipolar disorder, and major depressive disorder in the discovery as well as in independent validation datasets. By grouping SNPs based on genome annotation and fitting multiple random effects, we show that the prediction accuracy could be further improved. The gain in prediction accuracy of the multivariate approach is equivalent to an increase in sample size of 34% for schizophrenia, 68% for bipolar disorder, and 76% for major depressive disorders using single trait models. Because our approach can be readily applied to any number of GWAS datasets of correlated traits, it is a flexible and powerful tool to maximize prediction accuracy. With current sample size, risk predictors are not useful in a clinical setting but already are a valuable research tool, for example in experimental designs comparing cases with high and low polygenic risk.

AB - Genetic risk prediction has several potential applications in medical research and clinical practice and could be used, for example, to stratify a heterogeneous population of patients by their predicted genetic risk. However, for polygenic traits, such as psychiatric disorders, the accuracy of risk prediction is low. Here we use a multivariate linear mixed model and apply multi-trait genomic best linear unbiased prediction for genetic risk prediction. This method exploits correlations between disorders and simultaneously evaluates individual risk for each disorder. We show that the multivariate approach significantly increases the prediction accuracy for schizophrenia, bipolar disorder, and major depressive disorder in the discovery as well as in independent validation datasets. By grouping SNPs based on genome annotation and fitting multiple random effects, we show that the prediction accuracy could be further improved. The gain in prediction accuracy of the multivariate approach is equivalent to an increase in sample size of 34% for schizophrenia, 68% for bipolar disorder, and 76% for major depressive disorders using single trait models. Because our approach can be readily applied to any number of GWAS datasets of correlated traits, it is a flexible and powerful tool to maximize prediction accuracy. With current sample size, risk predictors are not useful in a clinical setting but already are a valuable research tool, for example in experimental designs comparing cases with high and low polygenic risk.

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JO - American Journal of Human Genetics

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Joint analysis of psychiatric disorders increases accuracy of risk prediction for schizophrenia, bipolar disorder, and major depressive disorder

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

PubMed: MeSH publication types

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