BMC Bioinformatics (Jun 2020)

Deconvolution of bulk blood eQTL effects into immune cell subpopulations

  • Raúl Aguirre-Gamboa,
  • Niek de Klein,
  • Jennifer di Tommaso,
  • Annique Claringbould,
  • Monique GP van der Wijst,
  • Dylan de Vries,
  • Harm Brugge,
  • Roy Oelen,
  • Urmo Võsa,
  • Maria M. Zorro,
  • Xiaojin Chu,
  • Olivier B. Bakker,
  • Zuzanna Borek,
  • Isis Ricaño-Ponce,
  • Patrick Deelen,
  • Cheng-Jiang Xu,
  • Morris Swertz,
  • Iris Jonkers,
  • Sebo Withoff,
  • Irma Joosten,
  • Serena Sanna,
  • Vinod Kumar,
  • Hans J. P. M. Koenen,
  • Leo A. B. Joosten,
  • Mihai G. Netea,
  • Cisca Wijmenga,
  • BIOS Consortium,
  • Lude Franke,
  • Yang Li

DOI
https://doi.org/10.1186/s12859-020-03576-5
Journal volume & issue
Vol. 21, no. 1
pp. 1 – 23

Abstract

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Abstract Background Expression quantitative trait loci (eQTL) studies are used to interpret the function of disease-associated genetic risk factors. To date, most eQTL analyses have been conducted in bulk tissues, such as whole blood and tissue biopsies, which are likely to mask the cell type-context of the eQTL regulatory effects. Although this context can be investigated by generating transcriptional profiles from purified cell subpopulations, current methods to do this are labor-intensive and expensive. We introduce a new method, Decon2, as a framework for estimating cell proportions using expression profiles from bulk blood samples (Decon-cell) followed by deconvolution of cell type eQTLs (Decon-eQTL). Results The estimated cell proportions from Decon-cell agree with experimental measurements across cohorts (R ≥ 0.77). Using Decon-cell, we could predict the proportions of 34 circulating cell types for 3194 samples from a population-based cohort. Next, we identified 16,362 whole-blood eQTLs and deconvoluted cell type interaction (CTi) eQTLs using the predicted cell proportions from Decon-cell. CTi eQTLs show excellent allelic directional concordance with eQTL (≥ 96–100%) and chromatin mark QTL (≥87–92%) studies that used either purified cell subpopulations or single-cell RNA-seq, outperforming the conventional interaction effect. Conclusions Decon2 provides a method to detect cell type interaction effects from bulk blood eQTLs that is useful for pinpointing the most relevant cell type for a given complex disease. Decon2 is available as an R package and Java application ( https://github.com/molgenis/systemsgenetics/tree/master/Decon2 ) and as a web tool ( www.molgenis.org/deconvolution ).

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