Abstract
Variants associated with Parkinson’s disease (PD) have generally a small effect size and, therefore, large sample sizes or targeted analyses are required to detect significant associations in a whole exome sequencing (WES) study. Here, we used protein-protein interaction (PPI) information on 36 genes with established or suggested associations with PD to target the analysis of the WES data. We performed an association analysis on WES data from 439 Finnish PD subjects and 855 controls, and included a Finnish population cohort as the replication dataset with 60 PD subjects and 8214 controls. Single variant association (SVA) test in the discovery dataset yielded 11 candidate variants in seven genes, but the associations were not significant in the replication cohort after correction for multiple testing. Polygenic risk score using variants rs2230288 and rs2291312, however, was associated to PD with odds ratio of 2.7 (95% confidence interval 1.4–5.2; p < 2.56e-03). Furthermore, an analysis of the PPI network revealed enriched clusters of biological processes among established and candidate genes, and these functional networks were visualized in the study. We identified novel candidate variants for PD using a gene prioritization based on PPI information, and described why these variants may be involved in the pathogenesis of PD.
Highlights
Variants associated with Parkinson’s disease (PD) have generally a small effect size and, large sample sizes or targeted analyses are required to detect significant associations in a whole exome sequencing (WES) study
We identified 8091 variants in PD2300net genes among 439 cases and 855 controls in the discovery dataset
Single variant association (SVA) test was not significant in the replication dataset, but an association was found between PD and Polygenic risk score (PRS)
Summary
Variants associated with Parkinson’s disease (PD) have generally a small effect size and, large sample sizes or targeted analyses are required to detect significant associations in a whole exome sequencing (WES) study. We used protein-protein interaction (PPI) information on 36 genes with established or suggested associations with PD to target the analysis of the WES data. We performed an association analysis on WES data from 439 Finnish PD subjects and 855 controls, and included a Finnish population cohort as the replication dataset with 60 PD subjects and 8214 controls. Single variant association (SVA) test in the discovery dataset yielded 11 candidate variants in seven genes, but the associations were not significant in the replication cohort after correction for multiple testing. Single variant analysis (SVA) in the discovery dataset yielded 11 candidate variants in seven genes, which were analyzed in the replication dataset. In order to visualize possible biological processes related to these genes, we created PPI networks that included functional information of PD36 genes and functional information of novel candidate genes and genes of PD associated loci[6,7]
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