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Labels as a feature: Network homophily for systematically annotating human GPCR drug-target interactions

Author

Listed:
  • Frederik G. Hansson

    (Technical University of Denmark)

  • Niklas Gesmar Madsen

    (Technical University of Denmark)

  • Lea G. Hansen

    (Biomia Aps Lersø Parkallé 44)

  • Tadas Jakočiūnas

    (Technical University of Denmark)

  • Bettina Lengger

    (Technical University of Denmark)

  • Jay D. Keasling

    (Joint BioEnergy Institute
    Lawrence Berkeley National Laboratory
    University of California)

  • Michael K. Jensen

    (Technical University of Denmark
    Biomia Aps Lersø Parkallé 44)

  • Carlos G. Acevedo-Rocha

    (Technical University of Denmark)

  • Emil D. Jensen

    (Technical University of Denmark)

Abstract

Machine learning has revolutionized drug discovery by enabling the exploration of vast, uncharted chemical spaces essential for discovering novel patentable drugs. Despite the critical role of human G protein-coupled receptors in FDA-approved drugs, exhaustive in-distribution drug-target interaction testing across all pairs of human G protein-coupled receptors and known drugs is rare due to significant economic and technical challenges. This often leaves off-target effects unexplored, which poses a considerable risk to drug safety. In contrast to the traditional focus on out-of-distribution exploration (drug discovery), we introduce a neighborhood-to-prediction model termed Chemical Space Neural Networks that leverages network homophily and training-free graph neural networks with labels as features. We show that Chemical Space Neural Networks’ ability to make accurate predictions strongly correlates with network homophily. Thus, labels as features strongly increase a machine learning model’s capacity to enhance in-distribution prediction accuracy, which we show by integrating labeled data during inference. We validate these advancements in a high-throughput yeast biosensing system (3773 drug-target interactions, 539 compounds, 7 human G protein-coupled receptors) to discover novel drug-target interactions for FDA-approved drugs and to expand the general understanding of how to build reliable predictors to guide experimental verification.

Suggested Citation

  • Frederik G. Hansson & Niklas Gesmar Madsen & Lea G. Hansen & Tadas Jakočiūnas & Bettina Lengger & Jay D. Keasling & Michael K. Jensen & Carlos G. Acevedo-Rocha & Emil D. Jensen, 2025. "Labels as a feature: Network homophily for systematically annotating human GPCR drug-target interactions," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59418-6
    DOI: 10.1038/s41467-025-59418-6
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    References listed on IDEAS

    as
    1. John Jumper & Richard Evans & Alexander Pritzel & Tim Green & Michael Figurnov & Olaf Ronneberger & Kathryn Tunyasuvunakool & Russ Bates & Augustin Žídek & Anna Potapenko & Alex Bridgland & Clemens Me, 2021. "Highly accurate protein structure prediction with AlphaFold," Nature, Nature, vol. 596(7873), pages 583-589, August.
    2. Karel Miettinen & Nattawat Leelahakorn & Aldo Almeida & Yong Zhao & Lukas R. Hansen & Iben E. Nikolajsen & Jens B. Andersen & Michael Givskov & Dan Staerk & Søren Bak & Sotirios C. Kampranis, 2022. "A GPCR-based yeast biosensor for biomedical, biotechnological, and point-of-use cannabinoid determination," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    3. repec:plo:pcbi00:1002503 is not listed on IDEAS
    4. Emil D. Jensen & Marcus Deichmann & Xin Ma & Rikke U. Vilandt & Giovanni Schiesaro & Marie B. Rojek & Bettina Lengger & Line Eliasson & Justin M. Vento & Deniz Durmusoglu & Sandie P. Hovmand & Ibrahim, 2022. "Engineered cell differentiation and sexual reproduction in probiotic and mating yeasts," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    Full references (including those not matched with items on IDEAS)

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