Missing heritability: is the gap closing? An analysis of 32 complex traits in the Lifelines Cohort Study

Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this 'heritability gap...

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Published inEuropean journal of human genetics : EJHG Vol. 25; no. 7; pp. 877 - 885
Main Authors Nolte, Ilja M, van der Most, Peter J, Alizadeh, Behrooz Z, de Bakker, Paul IW, Boezen, H Marike, Bruinenberg, Marcel, Franke, Lude, van der Harst, Pim, Navis, Gerjan, Postma, Dirkje S, Rots, Marianne G, Stolk, Ronald P, Swertz, Morris A, Wolffenbuttel, Bruce HR, Wijmenga, Cisca, Snieder, Harold
Format Journal Article
LanguageEnglish
Published England Nature Publishing Group 01.06.2017
Subjects
Bioinformatics
Blood Cell Count
Blood Pressure - genetics
Clinical medicine
Diabetes
Disease
Epidemiology
Gene loci
Genes, Dominant
Genetic markers
Genetic Predisposition to Disease
Genetics
Genome-Wide Association Study - methods
Genome-Wide Association Study - standards
Genomes
Health risk assessment
Heart Rate - genetics
Heritability
Humans
Morbidity
Phenotype
Polymorphism, Single Nucleotide
Quantitative Trait, Heritable
Respiration - genetics
Single-nucleotide polymorphism
Studies
Netherlands
Online AccessGet full text
ISSN1018-4813
1476-5438
1476-5438
DOI10.1038/ejhg.2017.50

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Abstract Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this 'heritability gap' is closing, we first identified genome-wide significant SNPs from the literature and performed replication analyses for 32 highly relevant traits from five broad disease areas in 13 436 subjects of the Lifelines Cohort. Next, we calculated the variance explained by multi-SNP genetic risk scores (GRSs) for each trait, and compared it to their broad- and narrow-sense heritabilities captured by all common SNPs. The majority of all previously-associated SNPs (median=75%) were significantly associated with their respective traits. All GRSs were significant, with unweighted GRSs generally explaining less phenotypic variance than weighted GRSs, for which the explained variance was highest for height (15.5%) and varied between 0.02 and 6.7% for the other traits. Broad-sense common-SNP heritability estimates were significant for all traits, with the additive effect of common SNPs explaining 48.9% of the variance for height and between 5.6 and 39.2% for the other traits. Dominance effects were uniformly small (0-1.5%) and not significant. On average, the variance explained by the weighted GRSs accounted for only 10.7% of the common-SNP heritability of the 32 traits. These results indicate that GRSs may not yet be ready for accurate personalized prediction of complex disease traits limiting widespread adoption in clinical practice.
AbstractList Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this ‘heritability gap’ is closing, we first identified genome-wide significant SNPs from the literature and performed replication analyses for 32 highly relevant traits from five broad disease areas in 13 436 subjects of the Lifelines Cohort. Next, we calculated the variance explained by multi-SNP genetic risk scores (GRSs) for each trait, and compared it to their broad- and narrow-sense heritabilities captured by all common SNPs. The majority of all previously-associated SNPs (median=75%) were significantly associated with their respective traits. All GRSs were significant, with unweighted GRSs generally explaining less phenotypic variance than weighted GRSs, for which the explained variance was highest for height (15.5%) and varied between 0.02 and 6.7% for the other traits. Broad-sense common-SNP heritability estimates were significant for all traits, with the additive effect of common SNPs explaining 48.9% of the variance for height and between 5.6 and 39.2% for the other traits. Dominance effects were uniformly small (0–1.5%) and not significant. On average, the variance explained by the weighted GRSs accounted for only 10.7% of the common-SNP heritability of the 32 traits. These results indicate that GRSs may not yet be ready for accurate personalized prediction of complex disease traits limiting widespread adoption in clinical practice.
Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this 'heritability gap' is closing, we first identified genome-wide significant SNPs from the literature and performed replication analyses for 32 highly relevant traits from five broad disease areas in 13436 subjects of the Lifelines Cohort. Next, we calculated the variance explained by multi-SNP genetic risk scores (GRSs) for each trait, and compared it to their broad- and narrow-sense heritabilities captured by all common SNPs. The majority of all previously-associated SNPs (median=75%) were significantly associated with their respective traits. All GRSs were significant, with unweighted GRSs generally explaining less phenotypic variance than weighted GRSs, for which the explained variance was highest for height (15.5%) and varied between 0.02 and 6.7% for the other traits. Broad-sense common-SNP heritability estimates were significant for all traits, with the additive effect of common SNPs explaining 48.9% of the variance for height and between 5.6 and 39.2% for the other traits. Dominance effects were uniformly small (0-1.5%) and not significant. On average, the variance explained by the weighted GRSs accounted for only 10.7% of the common-SNP heritability of the 32 traits. These results indicate that GRSs may not yet be ready for accurate personalized prediction of complex disease traits limiting widespread adoption in clinical practice.
Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this 'heritability gap' is closing, we first identified genome-wide significant SNPs from the literature and performed replication analyses for 32 highly relevant traits from five broad disease areas in 13 436 subjects of the Lifelines Cohort. Next, we calculated the variance explained by multi-SNP genetic risk scores (GRSs) for each trait, and compared it to their broad- and narrow-sense heritabilities captured by all common SNPs. The majority of all previously-associated SNPs (median=75%) were significantly associated with their respective traits. All GRSs were significant, with unweighted GRSs generally explaining less phenotypic variance than weighted GRSs, for which the explained variance was highest for height (15.5%) and varied between 0.02 and 6.7% for the other traits. Broad-sense common-SNP heritability estimates were significant for all traits, with the additive effect of common SNPs explaining 48.9% of the variance for height and between 5.6 and 39.2% for the other traits. Dominance effects were uniformly small (0-1.5%) and not significant. On average, the variance explained by the weighted GRSs accounted for only 10.7% of the common-SNP heritability of the 32 traits. These results indicate that GRSs may not yet be ready for accurate personalized prediction of complex disease traits limiting widespread adoption in clinical practice.Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large gap between the known heritability of these traits and the part explained by these markers. To gauge whether this 'heritability gap' is closing, we first identified genome-wide significant SNPs from the literature and performed replication analyses for 32 highly relevant traits from five broad disease areas in 13 436 subjects of the Lifelines Cohort. Next, we calculated the variance explained by multi-SNP genetic risk scores (GRSs) for each trait, and compared it to their broad- and narrow-sense heritabilities captured by all common SNPs. The majority of all previously-associated SNPs (median=75%) were significantly associated with their respective traits. All GRSs were significant, with unweighted GRSs generally explaining less phenotypic variance than weighted GRSs, for which the explained variance was highest for height (15.5%) and varied between 0.02 and 6.7% for the other traits. Broad-sense common-SNP heritability estimates were significant for all traits, with the additive effect of common SNPs explaining 48.9% of the variance for height and between 5.6 and 39.2% for the other traits. Dominance effects were uniformly small (0-1.5%) and not significant. On average, the variance explained by the weighted GRSs accounted for only 10.7% of the common-SNP heritability of the 32 traits. These results indicate that GRSs may not yet be ready for accurate personalized prediction of complex disease traits limiting widespread adoption in clinical practice.
Author van der Harst, Pim
Wijmenga, Cisca
Stolk, Ronald P
Swertz, Morris A
Franke, Lude
van der Most, Peter J
Alizadeh, Behrooz Z
de Bakker, Paul IW
Snieder, Harold
Wolffenbuttel, Bruce HR
Navis, Gerjan
Rots, Marianne G
Nolte, Ilja M
Boezen, H Marike
Postma, Dirkje S
Bruinenberg, Marcel
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/28401901$$D View this record in MEDLINE/PubMed
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Copyright © 2017 Macmillan Publishers Limited, part of Springer Nature. 2017 Macmillan Publishers Limited, part of Springer Nature.
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Snippet Despite the recent explosive rise in number of genetic markers for complex disease traits identified in genome-wide association studies, there is still a large...
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proquest
pubmed
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Aggregation Database
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Enrichment Source
StartPage 877
SubjectTerms Bioinformatics
Blood Cell Count
Blood Pressure - genetics
Clinical medicine
Diabetes
Disease
Epidemiology
Gene loci
Genes, Dominant
Genetic markers
Genetic Predisposition to Disease
Genetics
Genome-Wide Association Study - methods
Genome-Wide Association Study - standards
Genomes
Health risk assessment
Heart Rate - genetics
Heritability
Humans
Morbidity
Phenotype
Polymorphism, Single Nucleotide
Quantitative Trait, Heritable
Respiration - genetics
Single-nucleotide polymorphism
Studies
Title Missing heritability: is the gap closing? An analysis of 32 complex traits in the Lifelines Cohort Study
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https://pubmed.ncbi.nlm.nih.gov/PMC5520063
Volume 25
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