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Genetic coupling of enhancer activity and connectivity in gene expression control

Author

Listed:
  • Helen Ray-Jones

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    VIB
    University of Antwerp)

  • Chak Kei Sung

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    the University of Hong Kong)

  • Lai Ting Chan

    (VIB
    University of Antwerp)

  • Alexander Haglund

    (Imperial College London)

  • Pavel Artemov

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine)

  • Monica Della Rosa

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    Cyted)

  • Luminita Ruje

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine)

  • Frances Burden

    (Cambridge Biomedical Campus
    Cambridge Biomedical Campus
    University of Kent)

  • Roman Kreuzhuber

    (Cambridge Biomedical Campus
    Cambridge Biomedical Campus
    Wellcome Genome Campus
    Swiss Federal Administration)

  • Anna Litovskikh

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    Faculty of Medicine)

  • Eline Weyenbergh

    (VIB
    University of Antwerp
    University Hospital Antwerp (UZA))

  • Zoï Brusselaers

    (VIB
    University of Antwerp
    University of Antwerp)

  • Vanessa Xue Hui Tan

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    Hummingbird Bioscience)

  • Mattia Frontini

    (Cambridge Biomedical Campus
    Cambridge Biomedical Campus
    University of Exeter Medical School)

  • Chris Wallace

    (University of Cambridge
    University of Cambridge)

  • Valeriya Malysheva

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine
    VIB
    University of Antwerp)

  • Leonardo Bottolo

    (University of Cambridge
    University of Cambridge
    The Alan Turing Institute)

  • Elena Vigorito

    (University of Cambridge)

  • Mikhail Spivakov

    (MRC Laboratory of Medical Sciences
    Imperial College Faculty of Medicine)

Abstract

Gene enhancers often form long-range contacts with promoters, but it remains unclear if the activity of enhancers and their chromosomal contacts are mediated by the same DNA sequences and recruited factors. Here, we study the effects of expression quantitative trait loci (eQTLs) on enhancer activity and promoter contacts in primary monocytes isolated from 34 male individuals. Using eQTL-Capture Hi-C and a Bayesian approach considering both intra- and inter-individual variation, we initially detect 19 eQTLs associated with enhancer-eGene promoter contacts, most of which also associate with enhancer accessibility and activity. Capitalising on these shared effects, we devise a multi-modality Bayesian strategy, identifying 629 “trimodal QTLs” jointly associated with enhancer accessibility, eGene promoter contact, and gene expression. Causal mediation analysis and CRISPR interference reveal causal relationships between these three modalities. Many detected QTLs overlap disease susceptibility loci and influence the predicted binding of myeloid transcription factors, including SPI1, GABPB and STAT3. Additionally, a variant associated with PCK2 promoter contact directly disrupts a CTCF binding motif and impacts promoter insulation from downstream enhancers. Jointly, our findings suggest an inherent genetic coupling of enhancer activity and connectivity in gene expression control relevant to human disease and highlight the regulatory role of genetically determined chromatin boundaries.

Suggested Citation

  • Helen Ray-Jones & Chak Kei Sung & Lai Ting Chan & Alexander Haglund & Pavel Artemov & Monica Della Rosa & Luminita Ruje & Frances Burden & Roman Kreuzhuber & Anna Litovskikh & Eline Weyenbergh & Zoï B, 2025. "Genetic coupling of enhancer activity and connectivity in gene expression control," Nature Communications, Nature, vol. 16(1), pages 1-26, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-55900-3
    DOI: 10.1038/s41467-025-55900-3
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