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Differentially expressed genes reflect disease-induced rather than disease-causing changes in the transcriptome

Author

Listed:
  • Eleonora Porcu

    (University of Lausanne
    Swiss Institute of Bioinformatics
    University Center for Primary Care and Public Health)

  • Marie C. Sadler

    (Swiss Institute of Bioinformatics
    University Center for Primary Care and Public Health)

  • Kaido Lepik

    (University of Tartu
    University of Tartu)

  • Chiara Auwerx

    (University of Lausanne
    Swiss Institute of Bioinformatics
    University Center for Primary Care and Public Health)

  • Andrew R. Wood

    (University of Exeter)

  • Antoine Weihs

    (University Medicine Greifswald)

  • Maroun S. Bou Sleiman

    (Ecole Polytechnique Fédérale de Lausanne)

  • Diogo M. Ribeiro

    (Swiss Institute of Bioinformatics
    University of Lausanne)

  • Stefania Bandinelli

    (Local Health Unit Toscana Centro)

  • Toshiko Tanaka

    (Clinical Res Branch, National Institute of Aging)

  • Matthias Nauck

    (University Medicine Greifswald
    partner site Greifswald)

  • Uwe Völker

    (partner site Greifswald
    University Medicine Greifswald)

  • Olivier Delaneau

    (Swiss Institute of Bioinformatics
    University of Lausanne)

  • Andres Metspalu

    (University of Tartu)

  • Alexander Teumer

    (partner site Greifswald
    University Medicine Greifswald)

  • Timothy Frayling

    (University of Exeter)

  • Federico A. Santoni

    (Lausanne University Hospital)

  • Alexandre Reymond

    (University of Lausanne)

  • Zoltán Kutalik

    (Swiss Institute of Bioinformatics
    University Center for Primary Care and Public Health
    University of Exeter
    University of Lausanne)

Abstract

Comparing transcript levels between healthy and diseased individuals allows the identification of differentially expressed genes, which may be causes, consequences or mere correlates of the disease under scrutiny. We propose a method to decompose the observational correlation between gene expression and phenotypes driven by confounders, forward- and reverse causal effects. The bi-directional causal effects between gene expression and complex traits are obtained by Mendelian Randomization integrating summary-level data from GWAS and whole-blood eQTLs. Applying this approach to complex traits reveals that forward effects have negligible contribution. For example, BMI- and triglycerides-gene expression correlation coefficients robustly correlate with trait-to-expression causal effects (rBMI = 0.11, PBMI = 2.0 × 10−51 and rTG = 0.13, PTG = 1.1 × 10−68), but not detectably with expression-to-trait effects. Our results demonstrate that studies comparing the transcriptome of diseased and healthy subjects are more prone to reveal disease-induced gene expression changes rather than disease causing ones.

Suggested Citation

  • Eleonora Porcu & Marie C. Sadler & Kaido Lepik & Chiara Auwerx & Andrew R. Wood & Antoine Weihs & Maroun S. Bou Sleiman & Diogo M. Ribeiro & Stefania Bandinelli & Toshiko Tanaka & Matthias Nauck & Uwe, 2021. "Differentially expressed genes reflect disease-induced rather than disease-causing changes in the transcriptome," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25805-y
    DOI: 10.1038/s41467-021-25805-y
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    Cited by:

    1. Marie C. Sadler & Chiara Auwerx & Kaido Lepik & Eleonora Porcu & Zoltán Kutalik, 2022. "Quantifying the role of transcript levels in mediating DNA methylation effects on complex traits and diseases," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. Koen F. Dekkers & Roderick C. Slieker & Andreea Ioan-Facsinay & Maarten Iterson & M. Arfan Ikram & Marleen M. J. Greevenbroek & Jan H. Veldink & Lude Franke & Dorret I. Boomsma & P. Eline Slagboom & J, 2023. "Lipid-induced transcriptomic changes in blood link to lipid metabolism and allergic response," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    3. Qingbo S. Wang & Ryuya Edahiro & Ho Namkoong & Takanori Hasegawa & Yuya Shirai & Kyuto Sonehara & Hiromu Tanaka & Ho Lee & Ryunosuke Saiki & Takayoshi Hyugaji & Eigo Shimizu & Kotoe Katayama & Masahir, 2022. "The whole blood transcriptional regulation landscape in 465 COVID-19 infected samples from Japan COVID-19 Task Force," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    4. Paul T Williams, 2022. "Quantile-specific heritability of plasma fibrinogen concentrations," PLOS ONE, Public Library of Science, vol. 17(1), pages 1-17, January.

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