Abstract
BackgroundMapping expression quantitative trait loci (eQTLs) has provided insight into gene regulation. Compared to cis-eQTLs, the regulatory mechanisms of trans-eQTLs are less known. Previous studies suggest that trans-eQTLs may regulate expression of remote genes by altering the expression of nearby genes. Trans-association has been studied in the mediation analysis with a single mediator. However, prior applications with one mediator are prone to model misspecification due to correlations between genes. Motivated from the observation that trans-eQTLs are more likely to associate with more than one cis-gene than randomly selected SNPs in the GTEx dataset, we developed a computational method to identify trans-eQTLs that are mediated by multiple mediators.ResultsWe proposed two hypothesis tests for testing the total mediation effect (TME) and the component-wise mediation effects (CME), respectively. We demonstrated in simulation studies that the type I error rates were controlled in both tests despite model misspecification. The TME test was more powerful than the CME test when the two mediation effects are in the same direction, while the CME test was more powerful than the TME test when the two mediation effects are in opposite direction. Multiple mediator analysis had increased power to detect mediated trans-eQTLs, especially in large samples. In the HapMap3 data, we identified 11 mediated trans-eQTLs that were not detected by the single mediator analysis in the combined samples of African populations. Moreover, the mediated trans-eQTLs in the HapMap3 samples are more likely to be trait-associated SNPs. In terms of computation, although there is no limit in the number of mediators in our model, analysis takes more time when adding additional mediators. In the analysis of the HapMap3 samples, we included at most 5 cis-gene mediators. Majority of the trios we considered have one or two mediators.ConclusionsTrans-eQTLs are more likely to associate with multiple cis-genes than randomly selected SNPs. Mediation analysis with multiple mediators improves power of identification of mediated trans-eQTLs, especially in large samples.
Highlights
Mapping expression quantitative trait loci has provided insight into gene regulation
We applied the method to the HapMap3 dataset and identified 11 mediated trans-Expression quantitative trait locus (eQTL) that were not detected by the single mediator analysis in the combined samples of African populations
Trans-eQTLs are more likely to associate with multiple cisgenes Previous studies showed that trans-eQTLs are more likely to associate with cis-genes [2, 7], which lays the foundation for the employment of mediation analysis in trans-eQTL studies
Summary
Mapping expression quantitative trait loci (eQTLs) has provided insight into gene regulation. Previous studies suggest that trans-eQTLs may regulate expression of remote genes by altering the expression of nearby genes. Previous studies have shown that trans-eQTLs are more likely to be cis-eQTLs than randomly selected SNPs in the human genome [2, 7], suggesting that trans-eQTLs may regulate expression of remote genes by altering the expression of nearby genes. Mediation analysis has become a popular tool to explore trans-association mediated by cis-regulators [2, 6, 8]. These studies used mediation test assuming a single mediator (Fig. 1c). Mediation with two mediators was used in [9, 10, 13] and mediation with high dimensional mediators was implemented in [11, 12]
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