Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis

EA Stahl; D Wegmann; G Trynka; J Gutierrez-Achury; R Do; BF Voight; P Kraft; Ruoqing Chen; HJ Kallberg; FAS Kurreeman; S Kathiresan; C Wijmenga; PK Gregersen; L Alfredsson; KA Siminovitch; J Worthington; PIW de Bakker; S Raychaudhuri; RM Plenge

doi:10.1038/ng.2232

Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis

EA Stahl
, D Wegmann
, G Trynka
, J Gutierrez-Achury
, R Do
, BF Voight
, P Kraft
, Ruoqing Chen
, HJ Kallberg
, FAS Kurreeman
, S Kathiresan
, C Wijmenga
, PK Gregersen
, L Alfredsson
, KA Siminovitch
, J Worthington
, PIW de Bakker
, S Raychaudhuri
, RM Plenge

External organisation

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

333 Citations (Scopus)

Abstract

The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48%) and type 2 diabetes (49%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases.

Original language	Undefined/Unknown
Pages (from-to)	483-+
Journal	Nature Genetics
Volume	44
Issue number	5
DOIs	https://doi.org/10.1038/ng.2232
Publication status	Published - 2012
Externally published	Yes

Research programs

EMC COEUR-09
EMC NIHES-01-64-02

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This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1038/ng.2232

Cite this

Stahl, EA., Wegmann, D., Trynka, G., Gutierrez-Achury, J., Do, R., Voight, BF., Kraft, P., Chen, R., Kallberg, HJ., Kurreeman, FAS., Kathiresan, S., Wijmenga, C., Gregersen, PK., Alfredsson, L., Siminovitch, KA., Worthington, J., de Bakker, PIW., Raychaudhuri, S., & Plenge, RM. (2012). Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis. Nature Genetics, 44(5), 483-+. https://doi.org/10.1038/ng.2232

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title = "Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis",

abstract = "The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20\% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43\% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48\%) and type 2 diabetes (49\%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases.",

author = "EA Stahl and D Wegmann and G Trynka and J Gutierrez-Achury and R Do and BF Voight and P Kraft and Ruoqing Chen and HJ Kallberg and FAS Kurreeman and S Kathiresan and C Wijmenga and PK Gregersen and L Alfredsson and KA Siminovitch and J Worthington and \{de Bakker\}, PIW and S Raychaudhuri and RM Plenge",

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Stahl, EA, Wegmann, D, Trynka, G, Gutierrez-Achury, J, Do, R, Voight, BF, Kraft, P, Chen, R, Kallberg, HJ, Kurreeman, FAS, Kathiresan, S, Wijmenga, C, Gregersen, PK, Alfredsson, L, Siminovitch, KA, Worthington, J, de Bakker, PIW, Raychaudhuri, S & Plenge, RM 2012, 'Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis', Nature Genetics, vol. 44, no. 5, pp. 483-+. https://doi.org/10.1038/ng.2232

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T1 - Bayesian inference analyses of the polygenic architecture of rheumatoid arthritis

AU - Stahl, EA

AU - Wegmann, D

AU - Trynka, G

AU - Gutierrez-Achury, J

AU - Do, R

AU - Voight, BF

AU - Kraft, P

AU - Chen, Ruoqing

AU - Kallberg, HJ

AU - Kurreeman, FAS

AU - Kathiresan, S

AU - Wijmenga, C

AU - Gregersen, PK

AU - Alfredsson, L

AU - Siminovitch, KA

AU - Worthington, J

AU - de Bakker, PIW

AU - Raychaudhuri, S

AU - Plenge, RM

PY - 2012

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N2 - The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48%) and type 2 diabetes (49%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases.

AB - The genetic architectures of common, complex diseases are largely uncharacterized. We modeled the genetic architecture underlying genome-wide association study (GWAS) data for rheumatoid arthritis and developed a new method using polygenic risk-score analyses to infer the total liability-scale variance explained by associated GWAS SNPs. Using this method, we estimated that, together, thousands of SNPs from rheumatoid arthritis GWAS explain an additional 20% of disease risk (excluding known associated loci). We further tested this method on datasets for three additional diseases and obtained comparable estimates for celiac disease (43% excluding the major histocompatibility complex), myocardial infarction and coronary artery disease (48%) and type 2 diabetes (49%). Our results are consistent with simulated genetic models in which hundreds of associated loci harbor common causal variants and a smaller number of loci harbor multiple rare causal variants. These analyses suggest that GWAS will continue to be highly productive for the discovery of additional susceptibility loci for common diseases.

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