Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants

E. R. Gamazon; J. A. Badner; L. Cheng; C. Zhang; D. Zhang; N. J. Cox; E. S. Gershon; J. R. Kelsoe; T. A. Greenwood; C. M. Nievergelt; C. Chen; R. McKinney; P. D. Shilling; N. J. Schork; E. N. Smith; C. S. Bloss; J. I. Nurnberger; H. J. Edenberg; T. Foroud; D. L. Koller; W. A. Scheftner; W. Coryell; J. Rice; W. B. Lawson; E. A. Nwulia; M. Hipolito; W. Byerley; F. J. McMahon; T. G. Schulze; W. H. Berrettini; J. B. Potash; P. P. Zandi; P. B. Mahon; M. G. McInnis; S. Zöllner; P. Zhang; D. W. Craig; S. Szelinger; T. B. Barrett; C. Liu

doi:10.1038/mp.2011.174

Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants

E. R. Gamazon
, J. A. Badner
, L. Cheng
, C. Zhang
, D. Zhang
, N. J. Cox
, E. S. Gershon
, J. R. Kelsoe
, T. A. Greenwood
, C. M. Nievergelt
, C. Chen
, R. McKinney
, P. D. Shilling
, N. J. Schork
, E. N. Smith
, C. S. Bloss
, J. I. Nurnberger
, H. J. Edenberg
, T. Foroud
, D. L. Koller

W. A. Scheftner, W. Coryell, J. Rice, W. B. Lawson, E. A. Nwulia, M. Hipolito, W. Byerley, F. J. McMahon, T. G. Schulze, W. H. Berrettini, J. B. Potash, P. P. Zandi, P. B. Mahon, M. G. McInnis, S. Zöllner, P. Zhang, D. W. Craig, S. Szelinger, T. B. Barrett, C. Liu^*

^*Corresponding author for this work

The University of Chicago
University of Illinois at Chicago
Zhejiang University
University of California at San Diego
Scripps Research Translational Institute
Indiana University Bloomington
Rush University
University of Iowa
Washington University St. Louis
Howard University
University of California at San Francisco
National Institutes of Health
Zentralinstitut fur Seelische Gesundheit
University of Pennsylvania
Johns Hopkins University
University of Michigan, Ann Arbor
Translational Genomics Research Institute
Portland VA Medical Center

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

Abstract

We conducted a systematic study of top susceptibility variants from a genome-wide association (GWA) study of bipolar disorder to gain insight into the functional consequences of genetic variation influencing disease risk. We report here the results of experiments to explore the effects of these susceptibility variants on DNA methylation and mRNA expression in human cerebellum samples. Among the top susceptibility variants, we identified an enrichment of cis regulatory loci on mRNA expression (eQTLs), and a significant excess of quantitative trait loci for DNA CpG methylation, hereafter referred to as methylation quantitative trait loci (mQTLs). Bipolar disorder susceptibility variants that cis regulate both cerebellar expression and methylation of the same gene are a very small proportion of bipolar disorder susceptibility variants. This finding suggests that mQTLs and eQTLs provide orthogonal ways of functionally annotating genetic variation within the context of studies of pathophysiology in brain. No lymphocyte mQTL enrichment was found, suggesting that mQTL enrichment was specific to the cerebellum, in contrast to eQTLs. Separately, we found that using mQTL information to restrict the number of single-nucleotide polymorphisms studied enhances our ability to detect a significant association. With this restriction a priori informed by the observed functional enrichment, we identified a significant association (rs12618769, P bonferroni <0.05) from two other GWA studies (TGen+GAIN; 2191 cases and 1434 controls) of bipolar disorder, which we replicated in an independent GWA study (WTCCC). Collectively, our findings highlight the importance of integrating functional annotation of genetic variants for gene expression and DNA methylation to advance the biological understanding of bipolar disorder. © 2013 Macmillan Publishers Limited.

Original language	English
Pages (from-to)	340-346
Journal	Molecular psychiatry
Volume	18
Issue number	3
DOIs	https://doi.org/10.1038/mp.2011.174
Publication status	Published - Mar 2013

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10.1038/mp.2011.174

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Gamazon, E. R., Badner, J. A., Cheng, L., Zhang, C., Zhang, D., Cox, N. J., Gershon, E. S., Kelsoe, J. R., Greenwood, T. A., Nievergelt, C. M., Chen, C., McKinney, R., Shilling, P. D., Schork, N. J., Smith, E. N., Bloss, C. S., Nurnberger, J. I., Edenberg, H. J., Foroud, T., ... Liu, C. (2013). Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants. Molecular psychiatry, 18(3), 340-346. https://doi.org/10.1038/mp.2011.174

@article{162a7e099070440f99da427881b910b6,

title = "Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants",

abstract = "We conducted a systematic study of top susceptibility variants from a genome-wide association (GWA) study of bipolar disorder to gain insight into the functional consequences of genetic variation influencing disease risk. We report here the results of experiments to explore the effects of these susceptibility variants on DNA methylation and mRNA expression in human cerebellum samples. Among the top susceptibility variants, we identified an enrichment of cis regulatory loci on mRNA expression (eQTLs), and a significant excess of quantitative trait loci for DNA CpG methylation, hereafter referred to as methylation quantitative trait loci (mQTLs). Bipolar disorder susceptibility variants that cis regulate both cerebellar expression and methylation of the same gene are a very small proportion of bipolar disorder susceptibility variants. This finding suggests that mQTLs and eQTLs provide orthogonal ways of functionally annotating genetic variation within the context of studies of pathophysiology in brain. No lymphocyte mQTL enrichment was found, suggesting that mQTL enrichment was specific to the cerebellum, in contrast to eQTLs. Separately, we found that using mQTL information to restrict the number of single-nucleotide polymorphisms studied enhances our ability to detect a significant association. With this restriction a priori informed by the observed functional enrichment, we identified a significant association (rs12618769, P bonferroni <0.05) from two other GWA studies (TGen+GAIN; 2191 cases and 1434 controls) of bipolar disorder, which we replicated in an independent GWA study (WTCCC). Collectively, our findings highlight the importance of integrating functional annotation of genetic variants for gene expression and DNA methylation to advance the biological understanding of bipolar disorder. {\textcopyright} 2013 Macmillan Publishers Limited.",

author = "Gamazon, \{E. R.\} and Badner, \{J. A.\} and L. Cheng and C. Zhang and D. Zhang and Cox, \{N. J.\} and Gershon, \{E. S.\} and Kelsoe, \{J. R.\} and Greenwood, \{T. A.\} and Nievergelt, \{C. M.\} and C. Chen and R. McKinney and Shilling, \{P. D.\} and Schork, \{N. J.\} and Smith, \{E. N.\} and Bloss, \{C. S.\} and Nurnberger, \{J. I.\} and Edenberg, \{H. J.\} and T. Foroud and Koller, \{D. L.\} and Scheftner, \{W. A.\} and W. Coryell and J. Rice and Lawson, \{W. B.\} and Nwulia, \{E. A.\} and M. Hipolito and W. Byerley and McMahon, \{F. J.\} and Schulze, \{T. G.\} and Berrettini, \{W. H.\} and Potash, \{J. B.\} and Zandi, \{P. P.\} and Mahon, \{P. B.\} and McInnis, \{M. G.\} and S. Z{\"o}llner and P. Zhang and Craig, \{D. W.\} and S. Szelinger and Barrett, \{T. B.\} and C. Liu",

year = "2013",

month = mar,

doi = "10.1038/mp.2011.174",

language = "English",

volume = "18",

pages = "340--346",

journal = "Molecular psychiatry",

issn = "1359-4184",

publisher = "Nature Publishing Group",

number = "3",

}

Gamazon, ER, Badner, JA, Cheng, L, Zhang, C, Zhang, D, Cox, NJ, Gershon, ES, Kelsoe, JR, Greenwood, TA, Nievergelt, CM, Chen, C, McKinney, R, Shilling, PD, Schork, NJ, Smith, EN, Bloss, CS, Nurnberger, JI, Edenberg, HJ, Foroud, T, Koller, DL, Scheftner, WA, Coryell, W, Rice, J, Lawson, WB, Nwulia, EA, Hipolito, M, Byerley, W, McMahon, FJ, Schulze, TG, Berrettini, WH, Potash, JB, Zandi, PP, Mahon, PB, McInnis, MG, Zöllner, S, Zhang, P, Craig, DW, Szelinger, S, Barrett, TB & Liu, C 2013, 'Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants', Molecular psychiatry, vol. 18, no. 3, pp. 340-346. https://doi.org/10.1038/mp.2011.174

TY - JOUR

T1 - Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants

AU - Gamazon, E. R.

AU - Badner, J. A.

AU - Cheng, L.

AU - Zhang, C.

AU - Zhang, D.

AU - Cox, N. J.

AU - Gershon, E. S.

AU - Kelsoe, J. R.

AU - Greenwood, T. A.

AU - Nievergelt, C. M.

AU - Chen, C.

AU - McKinney, R.

AU - Shilling, P. D.

AU - Schork, N. J.

AU - Smith, E. N.

AU - Bloss, C. S.

AU - Nurnberger, J. I.

AU - Edenberg, H. J.

AU - Foroud, T.

AU - Koller, D. L.

AU - Scheftner, W. A.

AU - Coryell, W.

AU - Rice, J.

AU - Lawson, W. B.

AU - Nwulia, E. A.

AU - Hipolito, M.

AU - Byerley, W.

AU - McMahon, F. J.

AU - Schulze, T. G.

AU - Berrettini, W. H.

AU - Potash, J. B.

AU - Zandi, P. P.

AU - Mahon, P. B.

AU - McInnis, M. G.

AU - Zöllner, S.

AU - Zhang, P.

AU - Craig, D. W.

AU - Szelinger, S.

AU - Barrett, T. B.

AU - Liu, C.

PY - 2013/3

Y1 - 2013/3

N2 - We conducted a systematic study of top susceptibility variants from a genome-wide association (GWA) study of bipolar disorder to gain insight into the functional consequences of genetic variation influencing disease risk. We report here the results of experiments to explore the effects of these susceptibility variants on DNA methylation and mRNA expression in human cerebellum samples. Among the top susceptibility variants, we identified an enrichment of cis regulatory loci on mRNA expression (eQTLs), and a significant excess of quantitative trait loci for DNA CpG methylation, hereafter referred to as methylation quantitative trait loci (mQTLs). Bipolar disorder susceptibility variants that cis regulate both cerebellar expression and methylation of the same gene are a very small proportion of bipolar disorder susceptibility variants. This finding suggests that mQTLs and eQTLs provide orthogonal ways of functionally annotating genetic variation within the context of studies of pathophysiology in brain. No lymphocyte mQTL enrichment was found, suggesting that mQTL enrichment was specific to the cerebellum, in contrast to eQTLs. Separately, we found that using mQTL information to restrict the number of single-nucleotide polymorphisms studied enhances our ability to detect a significant association. With this restriction a priori informed by the observed functional enrichment, we identified a significant association (rs12618769, P bonferroni <0.05) from two other GWA studies (TGen+GAIN; 2191 cases and 1434 controls) of bipolar disorder, which we replicated in an independent GWA study (WTCCC). Collectively, our findings highlight the importance of integrating functional annotation of genetic variants for gene expression and DNA methylation to advance the biological understanding of bipolar disorder. © 2013 Macmillan Publishers Limited.

AB - We conducted a systematic study of top susceptibility variants from a genome-wide association (GWA) study of bipolar disorder to gain insight into the functional consequences of genetic variation influencing disease risk. We report here the results of experiments to explore the effects of these susceptibility variants on DNA methylation and mRNA expression in human cerebellum samples. Among the top susceptibility variants, we identified an enrichment of cis regulatory loci on mRNA expression (eQTLs), and a significant excess of quantitative trait loci for DNA CpG methylation, hereafter referred to as methylation quantitative trait loci (mQTLs). Bipolar disorder susceptibility variants that cis regulate both cerebellar expression and methylation of the same gene are a very small proportion of bipolar disorder susceptibility variants. This finding suggests that mQTLs and eQTLs provide orthogonal ways of functionally annotating genetic variation within the context of studies of pathophysiology in brain. No lymphocyte mQTL enrichment was found, suggesting that mQTL enrichment was specific to the cerebellum, in contrast to eQTLs. Separately, we found that using mQTL information to restrict the number of single-nucleotide polymorphisms studied enhances our ability to detect a significant association. With this restriction a priori informed by the observed functional enrichment, we identified a significant association (rs12618769, P bonferroni <0.05) from two other GWA studies (TGen+GAIN; 2191 cases and 1434 controls) of bipolar disorder, which we replicated in an independent GWA study (WTCCC). Collectively, our findings highlight the importance of integrating functional annotation of genetic variants for gene expression and DNA methylation to advance the biological understanding of bipolar disorder. © 2013 Macmillan Publishers Limited.

UR - https://www.scopus.com/pages/publications/84884212298

UR - https://www.ncbi.nlm.nih.gov/pubmed/22212596

U2 - 10.1038/mp.2011.174

DO - 10.1038/mp.2011.174

M3 - Article

C2 - 22212596

SN - 1359-4184

VL - 18

SP - 340

EP - 346

JO - Molecular psychiatry

JF - Molecular psychiatry

IS - 3

ER -

Enrichment of cis-regulatory gene expression SNPs and methylation quantitative trait loci among bipolar disorder susceptibility variants

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