Genome-wide association study of multiplex schizophrenia pedigrees

Douglas F. Levinson; Jianxin Shi; Kai Wang; Sang Oh; Brien Riley; Ann E. Pulver; Dieter B. Wildenauer; Claudine Laurent; Bryan J. Mowry; Pablo V. Gejman; Michael J. Owen; Kenneth S. Kendler; Gerald Nestadt; Sibylle G. Schwab; Jacques Mallet; Deborah Nertney; Alan R. Sanders; Nigel M. Williams; Brandon Wormley; Virginia K. Lasseter; Margot Albus; Stephanie Godard-Bauché; Madeline Alexander; Jubao Duan; Michael C. O'Donovan; Dermot Walsh; Anthony O'Neill; George N. Papadimitriou; Dimitris Dikeos; Wolfgang Maier; Bernard Lerer; Dominique Campion; David Cohen; Maurice Jay; Ayman Fanous; Peter Eichhammer; Jeremy M. Silverman; Nadine Norton; Nancy Zhang; Hakon Hakonarson; Cynthia Gao; Ami Citri; Mark Hansen; Stephan Ripke; Frank Dudbridge; Peter A. Holmans

doi:10.1176/appi.ajp.2012.11091423

Genome-wide association study of multiplex schizophrenia pedigrees

Douglas F. Levinson, Jianxin Shi, Kai Wang, Sang Oh, Brien Riley, Ann E. Pulver, Dieter B. Wildenauer, Claudine Laurent, Bryan J. Mowry, Pablo V. Gejman, Michael J. Owen, Kenneth S. Kendler, Gerald Nestadt, Sibylle G. Schwab, Jacques Mallet, Deborah Nertney, Alan R. Sanders, Nigel M. Williams, Brandon Wormley, Virginia K. LasseterMargot Albus, Stephanie Godard-Bauché, Madeline Alexander, Jubao Duan, Michael C. O'Donovan, Dermot Walsh, Anthony O'Neill, George N. Papadimitriou, Dimitris Dikeos, Wolfgang Maier, Bernard Lerer, Dominique Campion, David Cohen, Maurice Jay, Ayman Fanous, Peter Eichhammer, Jeremy M. Silverman, Nadine Norton, Nancy Zhang, Hakon Hakonarson, Cynthia Gao, Ami Citri, Mark Hansen, Stephan Ripke, Frank Dudbridge, Peter A. Holmans

Cancer Biology

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Abstract

Objective: The authors used a genome-wide association study (GWAS) of multiply affected families to investigate the association of schizophrenia to common single-nucleotide polymorphisms (SNPs) and rare copy number variants (CNVs). Method: The family sample included 2,461 individuals from 631 pedigrees (581 in the primary European-ancestry analyses). Association was tested for single SNPs and genetic pathways. Polygenic scores based on family study results were used to predict case-control status in the Schizophrenia Psychiatric GWAS Consortium (PGC) data set, and consistency of direction of effect with the family study was determined for top SNPs in the PGC GWAS analysis. Withinfamily segregation was examined for schizophrenia-associated rare CNVs. Results: No genome-wide significant associations were observed for single SNPs or for pathways. PGC case and control subjects had significantly different genome-wide polygenic scores (computed by weighting their genotypes by log-odds ratios from the family study) (best p=10^-17, explaining 0.4% of the variance). Family study and PGC analyses had consistent directions for 37 of the 58 independent best PGC SNPs (p=0.024). The overall frequency of CNVs in regions with reported associations with schizophrenia (chromosomes 1q21.1, 15q13.3, 16p11.2, and 22q11.2 and the neurexin-1 gene [NRXN1]) was similar to previous case-control studies. NRXN1 deletions and 16p11.2 duplications (both of which were transmitted from parents) and 22q11.2 deletions (de novo in four cases) did not segregate with schizophrenia in families. Conclusions: Many common SNPs are likely to contribute to schizophrenia risk, with substantial overlap in genetic risk factors between multiply affected families and cases in large case-control studies. Our findings are consistent with a role for specific CNVs in disease pathogenesis, but the partial segregation of some CNVs with schizophrenia suggests that researchers should exercise caution in using them for predictive genetic testing until their effects in diverse populations have been fully studied.

Original language	English (US)
Pages (from-to)	963-973
Number of pages	11
Journal	American Journal of Psychiatry
Volume	169
Issue number	9
DOIs	https://doi.org/10.1176/appi.ajp.2012.11091423
State	Published - Aug 1 2012

ASJC Scopus subject areas

Psychiatry and Mental health

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10.1176/appi.ajp.2012.11091423

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Levinson, D. F., Shi, J., Wang, K., Oh, S., Riley, B., Pulver, A. E., Wildenauer, D. B., Laurent, C., Mowry, B. J., Gejman, P. V., Owen, M. J., Kendler, K. S., Nestadt, G., Schwab, S. G., Mallet, J., Nertney, D., Sanders, A. R., Williams, N. M., Wormley, B., ... Holmans, P. A. (2012). Genome-wide association study of multiplex schizophrenia pedigrees. American Journal of Psychiatry, 169(9), 963-973. https://doi.org/10.1176/appi.ajp.2012.11091423

Levinson, DF, Shi, J, Wang, K, Oh, S, Riley, B, Pulver, AE, Wildenauer, DB, Laurent, C, Mowry, BJ, Gejman, PV, Owen, MJ, Kendler, KS, Nestadt, G, Schwab, SG, Mallet, J, Nertney, D, Sanders, AR, Williams, NM, Wormley, B, Lasseter, VK, Albus, M, Godard-Bauché, S, Alexander, M, Duan, J, O'Donovan, MC, Walsh, D, O'Neill, A, Papadimitriou, GN, Dikeos, D, Maier, W, Lerer, B, Campion, D, Cohen, D, Jay, M, Fanous, A, Eichhammer, P, Silverman, JM, Norton, N, Zhang, N, Hakonarson, H, Gao, C, Citri, A, Hansen, M, Ripke, S, Dudbridge, F & Holmans, PA 2012, 'Genome-wide association study of multiplex schizophrenia pedigrees', American Journal of Psychiatry, vol. 169, no. 9, pp. 963-973. https://doi.org/10.1176/appi.ajp.2012.11091423

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title = "Genome-wide association study of multiplex schizophrenia pedigrees",

abstract = "Objective: The authors used a genome-wide association study (GWAS) of multiply affected families to investigate the association of schizophrenia to common single-nucleotide polymorphisms (SNPs) and rare copy number variants (CNVs). Method: The family sample included 2,461 individuals from 631 pedigrees (581 in the primary European-ancestry analyses). Association was tested for single SNPs and genetic pathways. Polygenic scores based on family study results were used to predict case-control status in the Schizophrenia Psychiatric GWAS Consortium (PGC) data set, and consistency of direction of effect with the family study was determined for top SNPs in the PGC GWAS analysis. Withinfamily segregation was examined for schizophrenia-associated rare CNVs. Results: No genome-wide significant associations were observed for single SNPs or for pathways. PGC case and control subjects had significantly different genome-wide polygenic scores (computed by weighting their genotypes by log-odds ratios from the family study) (best p=10-17, explaining 0.4% of the variance). Family study and PGC analyses had consistent directions for 37 of the 58 independent best PGC SNPs (p=0.024). The overall frequency of CNVs in regions with reported associations with schizophrenia (chromosomes 1q21.1, 15q13.3, 16p11.2, and 22q11.2 and the neurexin-1 gene [NRXN1]) was similar to previous case-control studies. NRXN1 deletions and 16p11.2 duplications (both of which were transmitted from parents) and 22q11.2 deletions (de novo in four cases) did not segregate with schizophrenia in families. Conclusions: Many common SNPs are likely to contribute to schizophrenia risk, with substantial overlap in genetic risk factors between multiply affected families and cases in large case-control studies. Our findings are consistent with a role for specific CNVs in disease pathogenesis, but the partial segregation of some CNVs with schizophrenia suggests that researchers should exercise caution in using them for predictive genetic testing until their effects in diverse populations have been fully studied.",

author = "Levinson, {Douglas F.} and Jianxin Shi and Kai Wang and Sang Oh and Brien Riley and Pulver, {Ann E.} and Wildenauer, {Dieter B.} and Claudine Laurent and Mowry, {Bryan J.} and Gejman, {Pablo V.} and Owen, {Michael J.} and Kendler, {Kenneth S.} and Gerald Nestadt and Schwab, {Sibylle G.} and Jacques Mallet and Deborah Nertney and Sanders, {Alan R.} and Williams, {Nigel M.} and Brandon Wormley and Lasseter, {Virginia K.} and Margot Albus and Stephanie Godard-Bauch{\'e} and Madeline Alexander and Jubao Duan and O'Donovan, {Michael C.} and Dermot Walsh and Anthony O'Neill and Papadimitriou, {George N.} and Dimitris Dikeos and Wolfgang Maier and Bernard Lerer and Dominique Campion and David Cohen and Maurice Jay and Ayman Fanous and Peter Eichhammer and Silverman, {Jeremy M.} and Nadine Norton and Nancy Zhang and Hakon Hakonarson and Cynthia Gao and Ami Citri and Mark Hansen and Stephan Ripke and Frank Dudbridge and Holmans, {Peter A.}",

year = "2012",

month = aug,

day = "1",

doi = "10.1176/appi.ajp.2012.11091423",

language = "English (US)",

volume = "169",

pages = "963--973",

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TY - JOUR

T1 - Genome-wide association study of multiplex schizophrenia pedigrees

AU - Levinson, Douglas F.

AU - Shi, Jianxin

AU - Wang, Kai

AU - Oh, Sang

AU - Riley, Brien

AU - Pulver, Ann E.

AU - Wildenauer, Dieter B.

AU - Laurent, Claudine

AU - Mowry, Bryan J.

AU - Gejman, Pablo V.

AU - Owen, Michael J.

AU - Kendler, Kenneth S.

AU - Nestadt, Gerald

AU - Schwab, Sibylle G.

AU - Mallet, Jacques

AU - Nertney, Deborah

AU - Sanders, Alan R.

AU - Williams, Nigel M.

AU - Wormley, Brandon

AU - Lasseter, Virginia K.

AU - Albus, Margot

AU - Godard-Bauché, Stephanie

AU - Alexander, Madeline

AU - Duan, Jubao

AU - O'Donovan, Michael C.

AU - Walsh, Dermot

AU - O'Neill, Anthony

AU - Papadimitriou, George N.

AU - Dikeos, Dimitris

AU - Maier, Wolfgang

AU - Lerer, Bernard

AU - Campion, Dominique

AU - Cohen, David

AU - Jay, Maurice

AU - Fanous, Ayman

AU - Eichhammer, Peter

AU - Silverman, Jeremy M.

AU - Norton, Nadine

AU - Zhang, Nancy

AU - Hakonarson, Hakon

AU - Gao, Cynthia

AU - Citri, Ami

AU - Hansen, Mark

AU - Ripke, Stephan

AU - Dudbridge, Frank

AU - Holmans, Peter A.

PY - 2012/8/1

Y1 - 2012/8/1

N2 - Objective: The authors used a genome-wide association study (GWAS) of multiply affected families to investigate the association of schizophrenia to common single-nucleotide polymorphisms (SNPs) and rare copy number variants (CNVs). Method: The family sample included 2,461 individuals from 631 pedigrees (581 in the primary European-ancestry analyses). Association was tested for single SNPs and genetic pathways. Polygenic scores based on family study results were used to predict case-control status in the Schizophrenia Psychiatric GWAS Consortium (PGC) data set, and consistency of direction of effect with the family study was determined for top SNPs in the PGC GWAS analysis. Withinfamily segregation was examined for schizophrenia-associated rare CNVs. Results: No genome-wide significant associations were observed for single SNPs or for pathways. PGC case and control subjects had significantly different genome-wide polygenic scores (computed by weighting their genotypes by log-odds ratios from the family study) (best p=10-17, explaining 0.4% of the variance). Family study and PGC analyses had consistent directions for 37 of the 58 independent best PGC SNPs (p=0.024). The overall frequency of CNVs in regions with reported associations with schizophrenia (chromosomes 1q21.1, 15q13.3, 16p11.2, and 22q11.2 and the neurexin-1 gene [NRXN1]) was similar to previous case-control studies. NRXN1 deletions and 16p11.2 duplications (both of which were transmitted from parents) and 22q11.2 deletions (de novo in four cases) did not segregate with schizophrenia in families. Conclusions: Many common SNPs are likely to contribute to schizophrenia risk, with substantial overlap in genetic risk factors between multiply affected families and cases in large case-control studies. Our findings are consistent with a role for specific CNVs in disease pathogenesis, but the partial segregation of some CNVs with schizophrenia suggests that researchers should exercise caution in using them for predictive genetic testing until their effects in diverse populations have been fully studied.

AB - Objective: The authors used a genome-wide association study (GWAS) of multiply affected families to investigate the association of schizophrenia to common single-nucleotide polymorphisms (SNPs) and rare copy number variants (CNVs). Method: The family sample included 2,461 individuals from 631 pedigrees (581 in the primary European-ancestry analyses). Association was tested for single SNPs and genetic pathways. Polygenic scores based on family study results were used to predict case-control status in the Schizophrenia Psychiatric GWAS Consortium (PGC) data set, and consistency of direction of effect with the family study was determined for top SNPs in the PGC GWAS analysis. Withinfamily segregation was examined for schizophrenia-associated rare CNVs. Results: No genome-wide significant associations were observed for single SNPs or for pathways. PGC case and control subjects had significantly different genome-wide polygenic scores (computed by weighting their genotypes by log-odds ratios from the family study) (best p=10-17, explaining 0.4% of the variance). Family study and PGC analyses had consistent directions for 37 of the 58 independent best PGC SNPs (p=0.024). The overall frequency of CNVs in regions with reported associations with schizophrenia (chromosomes 1q21.1, 15q13.3, 16p11.2, and 22q11.2 and the neurexin-1 gene [NRXN1]) was similar to previous case-control studies. NRXN1 deletions and 16p11.2 duplications (both of which were transmitted from parents) and 22q11.2 deletions (de novo in four cases) did not segregate with schizophrenia in families. Conclusions: Many common SNPs are likely to contribute to schizophrenia risk, with substantial overlap in genetic risk factors between multiply affected families and cases in large case-control studies. Our findings are consistent with a role for specific CNVs in disease pathogenesis, but the partial segregation of some CNVs with schizophrenia suggests that researchers should exercise caution in using them for predictive genetic testing until their effects in diverse populations have been fully studied.

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Genome-wide association study of multiplex schizophrenia pedigrees

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