Partitioning heritability of regulatory and cell-type-specific variants across 11 common diseases.

Regulatory and coding variants are known to be enriched with associations identified by genome-wide association studies (GWASs) of complex disease, but their contributions to trait heritability are currently unknown. We applied variance-component methods to imputed genotype data for 11 common diseases to partition the heritability explained by genotyped SNPs (hg(2)) across functional categories (while accounting for shared variance due to linkage disequilibrium). Extensive simulations showed that in contrast to current estimates from GWAS summary statistics, the variance-component approach partitions heritability accurately under a wide range of complex-disease architectures. Across the 11 diseases DNaseI hypersensitivity sites (DHSs) from 217 cell types spanned 16% of imputed SNPs (and 24% of genotyped SNPs) but explained an average of 79% (SE = 8%) of hg(2) from imputed SNPs (5.1× enrichment; p = 3.7 × 10(-17)) and 38% (SE = 4%) of hg(2) from genotyped SNPs (1.6× enrichment, p = 1.0 × 10(-4)). Further enrichment was observed at enhancer DHSs and cell-type-specific DHSs. In contrast, coding variants, which span 1% of the genome, explained <10% of hg(2) despite having the highest enrichment. We replicated these findings but found no significant contribution from rare coding variants in independent schizophrenia cohorts genotyped on GWAS and exome chips. Our results highlight the value of analyzing components of heritability to unravel the functional architecture of common disease.

Han Xu | Stephan Ripke | Chongzhi Zang | Eli Stahl | Bogdan Pasaniuc | Alexander Gusev | Soumya Raychaudhuri | Hilary Finucane | Patrick F Sullivan | Gosia Trynka | Shaun M Purcell | Benjamin M Neale | Mark Daly | Steven A McCarroll | S Hong Lee | Bjarni J Vilhjálmsson | Brendan Bulik-Sullivan | Anna K Kähler | Christina M Hultman | Naomi R Wray | Alkes L Price | C. Spencer | P. Visscher | N. Wray | M. Daly | H. Stefánsson | D. Rujescu | S. Cichon | S. Steinberg | E. Sigurdsson | T. Hansen | I. Giegling | A. Hartmann | J. Suvisaari | T. Paunio | E. Bramon | S. Tosato | Tao Li | S. Djurovic | I. Melle | O. Andreassen | R. Ophoff | M. Rietschel | T. Werge | T. Schulze | N. Craddock | M. Owen | L. DeLisi | P. Sullivan | J. Buxbaum | R. Cantor | S. Mccarroll | V. Salomaa | Jianxin Shi | J. Hirschhorn | R. Buckner | B. Neale | M. Hamshere | P. Holmans | A. Price | W. Cahn | R. Straub | S. Purcell | R. McCarley | J. Friedman | V. Haroutunian | J. Smoller | S. Raychaudhuri | P. Sham | I. Agartz | J. Roffman | A. McIntosh | P. Tooney | A. Palotie | A. Metspalu | T. Esko | L. Milani | S. Karachanak-Yankova | D. Toncheva | P. Sklar | D. Blackwood | A. Corvin | C. Hultman | A. McQuillin | C. Pato | D. Ruderfer | D. Morris | E. Scolnick | N. Williams | V. Milanova | J. Pimm | S. Thirumalai | D. Quested | D. Curtis | M. Pato | A. Fanous | J. Knowles | K. Chambert | M. Fromer | P. Michie | Yunjung Kim | C. Pantelis | K. Kendler | D. Posthuma | L. Seidman | T. Stroup | D. Perkins | E. Stahl | D. Levinson | C. Schubert | M. Keller | I. Nenadić | E. Gershon | G. Papadimitriou | J. Karjalainen | P. Magnusson | T. Pers | L. Franke | J. Crowley | A. Pocklington | S. Bacanu | F. Henskens | C. Mcdonald | R. Mesholam-Gately | T. Lencz | O. Mors | J. Veijola | B. Vilhjálmsson | P. Mortensen | A. Børglum | D. Hougaard | H. Rasmussen | M. Mattheisen | E. Strengman | V. Golimbet | E. Jönsson | D. Campion | J. Lubiński | F. Dudbridge | B. Lerer | J. Goldstein | S. Ripke | Qingqin S. Li | H. Xi | B. Riley | T. Dinan | E. Parkhomenko | F. O’Neill | B. Webb | D. Walsh | C. Hammer | E. Domenici | I. Myin-Germeys | G. Nestadt | E. Drapeau | Kai-How Farh | B. Maher | J. Wendland | K. Sim | J. Szatkiewicz | H. Finucane | A. Gusev | B. Bulik-Sullivan | G. Trynka | Han Xu | C. Zang | G. Genovese | L. Essioux | A. Jablensky | R. Chan | Phil H. Lee | M. Ikeda | G. Donohoe | M. Mattingsdal | A. Reichenberg | M. Farrell | B. Pasaniuc | H. So | J. Duan | A. Sanders | M. Nelis | P. Gejman | P. Hoffmann | A. Darvasi | T. Petryshen | A. Pulver | A. Kähler | S. Akterin | Sarah L Bergen | Stephanie Williams | P. Cormican | N. Durmishi | A. Richards | T. Silagadze | J. Walters | B. Mowry | S. Schwab | D. Wildenauer | M. Albus | M. Alexander | D. Dikeos | P. Eichhammer | S. Godard | M. Hansen | D. Nertney | J. Silverman | B. Wormley | L. Kalaydjieva | D. Demontis | E. Agerbo | R. Belliveau | M. Hollegaard | Hailiang Huang | P. Roussos | F. Zimprich | S. Papiol | H. Ehrenreich | Sang-Yun Oh | V. Escott-Price | Emily H. M. Wong | A. Khrunin | S. Limborska | M. Daly | D. Svrakic | A. Olincy | N. Carrera | S. Legge | M. Pejović-Milovančević | S. Witt | F. Degenhardt | S. Herms | J. Wu | C. Loughland | U. Schall | M. Weiser | M. Begemann | M. Reimers | Jacques Mallet | S. Meier | A. Julià | S. Marsal | N. Iwata | Qiang Wang | Patrick F. Sullivan | J. Bene | V. Kučinskas | B. Melegh | T. Bigdeli | J. Grove | E. O'callaghan | E. Cheung | L. Nisenbaum | K. Nicodemus | R. Freedman | J. Strohmaier | H. Gurling | F. Amin | R. Bruggeman | N. Buccola | J. Frank | M. Friedl | L. Georgieva | B. Konte | L. Olsen | Elizabeth Bevilacqua | Guiqing Cai | S. Catts | S. Chong | Nadine Cohen | S. Gopal | J. Gratten | A. Hofman | I. Joa | Z. Kučinskienė | Hana Kuzelova-Ptackova | C. Meijer | Y. Mokrab | L. Nikitina-Zake | A. Nordin | P. Slominsky | E. Stogmann | M. Subramaniam | Dai Wang | A. Wolen | C. Zai | Xue-bin Zheng | R. Adolfsson | J. Knight | D. Kavanagh | G. Kirov | B. Kelly | W. Byerley | C. Cloninger | Jimmy Lee Chee Keong | J. Lieberman | J. Moran | J. Eriksson | Vaughan J. Carr | M. Davidson | R. Kahn | J. Waddington | S. H. Lee | James L. Kennedy | K. Stefansson | J. Powell | D. Black | Claudine Laurent | M. Daly | Eric Y. H. Chen | M. Gill | Robin M. Murray | C. O’Dushlaine | Sarah E. Bergen | Daniel R. Weinberger | David Cohen | N. Freimer | Michael C. O’Donovan | D. A. Collier | Wei Cheng | Kenneth L. Davis | Kung-Yee Liang | Jianjun Liu | Ronald Y. L. Chen | Kieran C. Murphy | Alkes Price | Wolfgang Maier | J. Kloviņš | Miaoxin Li | Rodney J. Scott | R. Murray | M. Macek | K. Stefánsson | Christina M. Hultman | S. Hong Lee | Jurgen Del Favero | Paola Giusti-Rodrguez | Lieuwe de Haan | Jouko Lnnqvist | Bertram Mller-Myhsok | Jim Van Os | Olli Pietilinen | Erik Sderman | Anders D. Brglum | A. K. Malhotra | Markus M. Nthen | David St. Clair | Annelie Nordin | M. O’Donovan | A. Price | Madeline Alexander | J. Walters | Elodie Drapeau | C. Spencer | C. Hultman | A. Malhotra | M. J. Daly | Robin M. Murray | M. Hansen | J. Mallet | Alkes L. Price | I. Myin‐Germeys | Sena Karachanak-Yankova

[1]  Joseph K. Pickrell Joint analysis of functional genomic data and genome-wide association studies of 18 human traits , 2013, bioRxiv.

[2]  Jonathan K. Pritchard,et al.  Identification of Genetic Variants That Affect Histone Modifications in Human Cells , 2013, Science.

[3]  Buhm Han,et al.  Chromatin marks identify critical cell types for fine mapping complex trait variants , 2012 .

[4]  Shane J. Neph,et al.  An expansive human regulatory lexicon encoded in transcription factor footprints , 2012, Nature.

[5]  Doug Speed,et al.  Improved heritability estimation from genome-wide SNPs. , 2012, American journal of human genetics.

[6]  Clifford A. Meyer,et al.  Model-based Analysis of ChIP-Seq (MACS) , 2008, Genome Biology.

[7]  Seunggeun Lee,et al.  General framework for meta-analysis of rare variants in sequencing association studies. , 2013, American journal of human genetics.

[8]  Jacob F. Degner,et al.  Sequence and Chromatin Accessibility Data Accurate Inference of Transcription Factor Binding from Dna Material Supplemental Open Access , 2022 .

[9]  Jake K. Byrnes,et al.  Bayesian refinement of association signals for 14 loci in 3 common diseases , 2012, Nature Genetics.

[10]  R. Fernando,et al.  Genomic BLUP Decoded: A Look into the Black Box of Genomic Prediction , 2013, Genetics.

[11]  D. Reich,et al.  Principal components analysis corrects for stratification in genome-wide association studies , 2006, Nature Genetics.

[12]  Simon C. Potter,et al.  Genetic risk and a primary role for cell-mediated immune mechanisms in multiple sclerosis , 2011, Nature.

[13]  Morgan C. Giddings,et al.  Defining functional DNA elements in the human genome , 2014, Proceedings of the National Academy of Sciences.

[14]  Jon Wakefield,et al.  Bayes factors for genome‐wide association studies: comparison with P‐values , 2009, Genetic epidemiology.

[15]  Naomi R. Wray,et al.  Novel Genetic Analysis for Case-Control Genome-Wide Association Studies: Quantification of Power and Genomic Prediction Accuracy , 2013, PloS one.

[16]  W. G. Hill,et al.  Genome partitioning of genetic variation for complex traits using common SNPs , 2011, Nature Genetics.

[17]  Benjamin D. Greenberg,et al.  Partitioning the Heritability of Tourette Syndrome and Obsessive Compulsive Disorder Reveals Differences in Genetic Architecture , 2013, PLoS genetics.

[18]  Eric S. Lander,et al.  A polygenic burden of rare disruptive mutations in schizophrenia , 2014, Nature.

[19]  Raymond K. Auerbach,et al.  An Integrated Encyclopedia of DNA Elements in the Human Genome , 2012, Nature.

[20]  P. Bork,et al.  A method and server for predicting damaging missense mutations , 2010, Nature Methods.

[21]  Christian Fuchsberger,et al.  Exome array analysis identifies new loci and low-frequency variants influencing insulin processing and secretion , 2012, Nature Genetics.

[22]  Gustavo de los Campos,et al.  Inferences from Genomic Models in Stratified Populations , 2012, Genetics.

[23]  C. Spencer,et al.  Biological Insights From 108 Schizophrenia-Associated Genetic Loci , 2014, Nature.

[24]  F. Collins,et al.  Potential etiologic and functional implications of genome-wide association loci for human diseases and traits , 2009, Proceedings of the National Academy of Sciences.

[25]  Simon C. Potter,et al.  Genome-wide association study of 14,000 cases of seven common diseases and 3,000 shared controls , 2007, Nature.

[26]  J. Marchini,et al.  Genotype imputation for genome-wide association studies , 2010, Nature Reviews Genetics.

[27]  P. Donnelly,et al.  A Fine-Scale Map of Recombination Rates and Hotspots Across the Human Genome , 2005, Science.

[28]  David Reich,et al.  Phasing of many thousands of genotyped samples. , 2012, American journal of human genetics.

[29]  Suzanne M. Leal,et al.  Estimating genetic effects and quantifying missing heritability explained by identified rare-variant associations. , 2012, American journal of human genetics.

[30]  Jonathan M. Mudge,et al.  Functional transcriptomics in the post-ENCODE era , 2013, Genome research.

[31]  Naomi R. Wray,et al.  Statistical Power to Detect Genetic (Co)Variance of Complex Traits Using SNP Data in Unrelated Samples , 2014, PLoS genetics.

[32]  Hans D. Daetwyler,et al.  Accuracy of Predicting the Genetic Risk of Disease Using a Genome-Wide Approach , 2008, PloS one.

[33]  Gaurav Bhatia,et al.  Fast and accurate imputation of summary statistics enhances evidence of functional enrichment , 2013, Bioinform..

[34]  Ituro Inoue,et al.  Meta-analysis of genetic association studies: methodologies, between-study heterogeneity and winner's curse , 2009, Journal of Human Genetics.

[35]  P. Visscher,et al.  GCTA: a tool for genome-wide complex trait analysis. , 2011, American journal of human genetics.

[36]  R. Elston,et al.  The investigation of linkage between a quantitative trait and a marker locus , 1972, Behavior genetics.

[37]  S. Leal Genetics and Analysis of Quantitative Traits , 2001 .

[38]  D. Clayton,et al.  Population structure, differential bias and genomic control in a large-scale, case-control association study , 2005, Nature Genetics.

[39]  Erik Meijer,et al.  Delete-m Jackknife for Unequal m , 1999, Stat. Comput..

[40]  Donghyung Lee,et al.  DIST: direct imputation of summary statistics for unmeasured SNPs , 2013, Bioinform..

[41]  P. Visscher,et al.  Five years of GWAS discovery. , 2012, American journal of human genetics.

[42]  Kenny Q. Ye,et al.  An integrated map of genetic variation from 1,092 human genomes , 2012, Nature.

[43]  Timothy J. Durham,et al.  "Systematic" , 1966, Comput. J..

[44]  M. Stephens,et al.  Integrated Enrichment Analysis of Variants and Pathways in Genome-Wide Association Studies Indicates Central Role for IL-2 Signaling Genes in Type 1 Diabetes, and Cytokine Signaling Genes in Crohn's Disease , 2013, PLoS genetics.

[45]  Greg Gibson,et al.  Rare and common variants: twenty arguments , 2012, Nature Reviews Genetics.

[46]  M. Daly,et al.  LD Score regression distinguishes confounding from polygenicity in genome-wide association studies , 2014, Nature Genetics.

[47]  Phil Green,et al.  Comment on “Evidence of Abundant Purifying Selection in Humans for Recently Acquired Regulatory Functions” , 2013, Science.

[48]  P. Visscher,et al.  Advantages and pitfalls in the application of mixed-model association methods , 2014, Nature Genetics.

[49]  Stephan Ripke,et al.  Estimating the proportion of variation in susceptibility to schizophrenia captured by common SNPs , 2012, Nature Genetics.

[50]  T. Mikkelsen,et al.  The NIH Roadmap Epigenomics Mapping Consortium , 2010, Nature Biotechnology.

[51]  P. Visscher,et al.  Estimating missing heritability for disease from genome-wide association studies. , 2011, American journal of human genetics.

[52]  Jianxin Shi,et al.  Genetic relationship between five psychiatric disorders estimated from genome-wide SNPs , 2013, Nature Genetics.

[53]  Nathan C. Sheffield,et al.  The accessible chromatin landscape of the human genome , 2012, Nature.

[54]  P. Visscher,et al.  Pitfalls of predicting complex traits from SNPs , 2013, Nature Reviews Genetics.

[55]  Shane J. Neph,et al.  Systematic Localization of Common Disease-Associated Variation in Regulatory DNA , 2012, Science.

[56]  Sarah A. Gagliano,et al.  A Bayesian Method to Incorporate Hundreds of Functional Characteristics with Association Evidence to Improve Variant Prioritization , 2013 .

[57]  Dajiang J. Liu,et al.  Meta-Analysis of Gene Level Tests for Rare Variant Association , 2013, Nature Genetics.

[58]  Kimberly R. Kukurba,et al.  Systematic functional regulatory assessment of disease-associated variants , 2013, Proceedings of the National Academy of Sciences.

[59]  Eleazar Eskin,et al.  Incorporating prior information into association studies , 2012, Bioinform..

[60]  Joseph K. Pickrell,et al.  DNaseI sensitivity QTLs are a major determinant of human expression variation , 2011, Nature.

[61]  Radu V. Craiu,et al.  Stratified false discovery control for large‐scale hypothesis testing with application to genome‐wide association studies , 2006, Genetic epidemiology.

[62]  Alkes L. Price,et al.  Quantifying Missing Heritability at Known GWAS Loci , 2013, PLoS genetics.

[63]  Cole Trapnell,et al.  Ultrafast and memory-efficient alignment of short DNA sequences to the human genome , 2009, Genome Biology.

[64]  N. Cox,et al.  Trait-Associated SNPs Are More Likely to Be eQTLs: Annotation to Enhance Discovery from GWAS , 2010, PLoS genetics.

[65]  P. Visscher,et al.  Mixed model with correction for case-control ascertainment increases association power. , 2015, American journal of human genetics.

[66]  William Stafford Noble,et al.  Integrative annotation of chromatin elements from ENCODE data , 2012, Nucleic acids research.

[67]  Saharon Rosset,et al.  Narrowing the gap on heritability of common disease by direct estimation in case-control GWAS , 2013, 1305.5363.

[68]  Martin Renqiang Min,et al.  An integrated encyclopedia of DNA elements in the human genome , 2012 .

[69]  Alex P. Reynolds,et al.  Exonic Transcription Factor Binding Directs Codon Choice and Affects Protein Evolution , 2013, Science.

[70]  Manolis Kellis,et al.  Evidence of Abundant Purifying Selection in Humans for Recently Acquired Regulatory Functions , 2012, Science.

[71]  S. Leal,et al.  Methods for detecting associations with rare variants for common diseases: application to analysis of sequence data. , 2008, American journal of human genetics.

[72]  O. Andreassen,et al.  All SNPs Are Not Created Equal: Genome-Wide Association Studies Reveal a Consistent Pattern of Enrichment among Functionally Annotated SNPs , 2013, PLoS genetics.

[73]  Stephan Ripke,et al.  Estimation of SNP heritability from dense genotype data. , 2013, American journal of human genetics.

[74]  A. Dunning,et al.  Beyond GWASs: illuminating the dark road from association to function. , 2013, American journal of human genetics.

[75]  Arthur R Gilmour,et al.  Computing approximate standard errors for genetic parameters derived from random regression models fitted by average information REML , 2004, Genetics Selection Evolution.

[76]  Eleazar Eskin Increasing power in association studies by using linkage disequilibrium structure and molecular function as prior information. , 2008, Genome research.

[77]  M. Lynch,et al.  Genetics and Analysis of Quantitative Traits , 1996 .

[78]  J. Marchini,et al.  Fast and accurate genotype imputation in genome-wide association studies through pre-phasing , 2012, Nature Genetics.

[79]  S. Batzoglou,et al.  Linking disease associations with regulatory information in the human genome , 2012, Genome research.

[80]  P. Donnelly,et al.  Genome-wide association study of ulcerative colitis identifies three new susceptibility loci, including the HNF4A region , 2010 .

[81]  D. Falconer The inheritance of liability to certain diseases, estimated from the incidence among relatives , 1965 .

[82]  Xiang Zhou,et al.  Polygenic Modeling with Bayesian Sparse Linear Mixed Models , 2012, PLoS genetics.

[83]  Data production leads,et al.  An integrated encyclopedia of DNA elements in the human genome , 2012 .

[84]  Pedro G. Ferreira,et al.  Transcriptome and genome sequencing uncovers functional variation in humans , 2013, Nature.

[85]  Simon C. Potter,et al.  Genome-wide Association Analysis Identifies 14 New Risk Loci for Schizophrenia , 2013, Nature Genetics.

[86]  Matthew Stephens,et al.  Dissecting the regulatory architecture of gene expression QTLs , 2012, Genome Biology.

[87]  P. Sullivan,et al.  Heritability and Genomics of Gene Expression in Peripheral Blood , 2014, Nature Genetics.

[88]  Doug Speed,et al.  MultiBLUP: improved SNP-based prediction for complex traits , 2014, Genome research.

[89]  Lee-Jen Wei,et al.  Pooled Association Tests for Rare Variants in Exon-Resequencing Studies , 2010 .

[90]  P. Visscher,et al.  Common SNPs explain a large proportion of heritability for human height , 2011 .

[91]  H. Muller The American Journal of Human Genetics Vol . 2 No . 2 June 1950 Our Load of Mutations 1 , 2006 .