Abstract
Gene set-based analysis of genome-wide association study (GWAS) data has recently emerged as a useful approach to examine the joint effects of multiple risk loci in complex human diseases or phenotypes. Dental caries is a common, chronic, and complex disease leading to a decrease in quality of life worldwide. In this study, we applied the approaches of gene set enrichment analysis to a major dental caries GWAS dataset, which consists of 537 cases and 605 controls. Using four complementary gene set analysis methods, we analyzed 1331 Gene Ontology (GO) terms collected from the Molecular Signatures Database (MSigDB). Setting false discovery rate (FDR) threshold as 0.05, we identified 13 significantly associated GO terms. Additionally, 17 terms were further included as marginally associated because they were top ranked by each method, although their FDR is higher than 0.05. In total, we identified 30 promising GO terms, including ‘Sphingoid metabolic process,’ ‘Ubiquitin protein ligase activity,’ ‘Regulation of cytokine secretion,’ and ‘Ceramide metabolic process.’ These GO terms encompass broad functions that potentially interact and contribute to the oral immune response related to caries development, which have not been reported in the standard single marker based analysis. Collectively, our gene set enrichment analysis provided complementary insights into the molecular mechanisms and polygenic interactions in dental caries, revealing promising association signals that could not be detected through single marker analysis of GWAS data.
Highlights
IntroductionDental caries ( known as tooth decay or a cavity) is defined as a procedure that causes destruction and demineralization of hard tooth tissues such as enamel, dentin, and cementum
Dental caries is defined as a procedure that causes destruction and demineralization of hard tooth tissues such as enamel, dentin, and cementum
We further examined the genes that contributed to the association of these Gene Ontology (GO) terms with dental caries
Summary
Dental caries ( known as tooth decay or a cavity) is defined as a procedure that causes destruction and demineralization of hard tooth tissues such as enamel, dentin, and cementum. Benefiting from high-throughput genotyping technologies (up to a few million single nucleotide polymorphism (SNP) biomarkers on a single chip), genome-wide association studies (GWAS) have recently been employed to search for genetic susceptibility related to dental caries [6,7,8], among hundreds of other complex diseases and phenotypes [9]. These dental caries GWA studies identified several loci and genes, such as ACTN2, LYZL2, and AJAP1 [7,8]. We performed a comprehensive gene set analysis of GWAS data for dental caries, aiming to broaden our understanding of the role of interactions between genes for this worldwide disease
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