Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype

Vinicius Tragante; Johannes M I H Gho; Janine F. Felix; Ramachandran S Vasan; Nicholas L. Smith; Benjamin F Voight; Colin Na Palmer; Pim van der Harst; Jason H Moore; Folkert W Asselbergs

doi:10.1186/s13040-017-0137-5

Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype

Vinicius Tragante, Johannes M I H Gho, Janine F. Felix, Ramachandran S Vasan, Nicholas L. Smith, Benjamin F Voight, Colin Na Palmer, Pim van der Harst, Jason H Moore, Folkert W Asselbergs,

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Abstract

BACKGROUND: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.

RESULTS: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.

CONCLUSIONS: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

Original language	English
Article number	18
Pages (from-to)	18
Journal	BioData mining [E]
Volume	10
Issue number	1
DOIs	https://doi.org/10.1186/s13040-017-0137-5
Publication status	Published - 2017

Keywords

Coronary artery disease
Gene set enrichment analyses
Heart failure

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title = "Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype",

abstract = "BACKGROUND: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.RESULTS: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.CONCLUSIONS: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.",

keywords = "Coronary artery disease, Gene set enrichment analyses, Heart failure",

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doi = "10.1186/s13040-017-0137-5",

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AU - Tragante, Vinicius

AU - Gho, Johannes M I H

AU - Felix, Janine F.

AU - Vasan, Ramachandran S

AU - Smith, Nicholas L.

AU - Voight, Benjamin F

AU - Palmer, Colin Na

AU - van der Harst, Pim

AU - Moore, Jason H

AU - Asselbergs, Folkert W

PY - 2017

Y1 - 2017

N2 - BACKGROUND: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.RESULTS: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.CONCLUSIONS: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

AB - BACKGROUND: Genetic studies for complex diseases have predominantly discovered main effects at individual loci, but have not focused on genomic and environmental contexts important for a phenotype. Gene Set Enrichment Analysis (GSEA) aims to address this by identifying sets of genes or biological pathways contributing to a phenotype, through gene-gene interactions or other mechanisms, which are not the focus of conventional association methods.RESULTS: Approaches that utilize GSEA can now take input from array chips, either gene-centric or genome-wide, but are highly sensitive to study design, SNP selection and pruning strategies, SNP-to-gene mapping, and pathway definitions. Here, we present lessons learned from our experience with GSEA of heart failure, a particularly challenging phenotype due to its underlying heterogeneous etiology.CONCLUSIONS: This case study shows that proper data handling is essential to avoid false-positive results. Well-defined pipelines for quality control are needed to avoid reporting spurious results using GSEA.

KW - Coronary artery disease

KW - Gene set enrichment analyses

KW - Heart failure

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DO - 10.1186/s13040-017-0137-5

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JO - BioData mining [E]

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Gene Set Enrichment Analyses: lessons learned from the heart failure phenotype

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Keywords

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