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Virtual fragment screening for DNA repair inhibitors in vast chemical space

Author

Listed:
  • Andreas Luttens

    (BMC
    Massachusetts Institute of Technology
    Broad Institute of MIT and Harvard)

  • Duc Duy Vo

    (BMC)

  • Emma R. Scaletti

    (Stockholm University)

  • Elisée Wiita

    (Karolinska Institute)

  • Ingrid Almlöf

    (Karolinska Institute)

  • Olov Wallner

    (Karolinska Institute)

  • Jonathan Davies

    (Stockholm University)

  • Sara Košenina

    (Stockholm University)

  • Liuzhen Meng

    (Karolinska Institute)

  • Maeve Long

    (Karolinska Institute)

  • Oliver Mortusewicz

    (Karolinska Institute)

  • Geoffrey Masuyer

    (Stockholm University)

  • Flavio Ballante

    (BMC)

  • Maurice Michel

    (Karolinska Institute)

  • Evert Homan

    (Karolinska Institute)

  • Martin Scobie

    (Karolinska Institute)

  • Christina Kalderén

    (Karolinska Institute)

  • Ulrika Warpman Berglund

    (Karolinska Institute)

  • Andrii V. Tarnovskiy

    (Enamine Ltd.)

  • Dmytro S. Radchenko

    (Enamine Ltd.)

  • Yurii S. Moroz

    (Enamine Ltd.
    Taras Shevchenko National University of Kyiv
    Chemspace LLC)

  • Jan Kihlberg

    (Uppsala University)

  • Pål Stenmark

    (Stockholm University)

  • Thomas Helleday

    (Karolinska Institute
    University of Sheffield)

  • Jens Carlsson

    (BMC)

Abstract

Fragment-based screening can catalyze drug discovery by identifying novel scaffolds, but this approach is limited by the small chemical libraries studied by biophysical experiments and the challenging optimization process. To expand the explored chemical space, we employ structure-based docking to evaluate orders-of-magnitude larger libraries than those used in traditional fragment screening. We computationally dock a set of 14 million fragments to 8-oxoguanine DNA glycosylase (OGG1), a difficult drug target involved in cancer and inflammation, and evaluate 29 highly ranked compounds experimentally. Four of these bind to OGG1 and X-ray crystallography confirms the binding modes predicted by docking. Furthermore, we show how fragment elaboration using searches among billions of readily synthesizable compounds identifies submicromolar inhibitors with anti-inflammatory and anti-cancer effects in cells. Comparisons of virtual screening strategies to explore a chemical space of 1022 compounds illustrate that fragment-based design enables enumeration of all molecules relevant for inhibitor discovery. Virtual fragment screening is hence a highly efficient strategy for navigating the rapidly growing combinatorial libraries and can serve as a powerful tool to accelerate drug discovery efforts for challenging therapeutic targets.

Suggested Citation

  • Andreas Luttens & Duc Duy Vo & Emma R. Scaletti & Elisée Wiita & Ingrid Almlöf & Olov Wallner & Jonathan Davies & Sara Košenina & Liuzhen Meng & Maeve Long & Oliver Mortusewicz & Geoffrey Masuyer & Fl, 2025. "Virtual fragment screening for DNA repair inhibitors in vast chemical space," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56893-9
    DOI: 10.1038/s41467-025-56893-9
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    3. Stephen P. Jackson & Jiri Bartek, 2009. "The DNA-damage response in human biology and disease," Nature, Nature, vol. 461(7267), pages 1071-1078, October.
    4. Ryan G Coleman & Michael Carchia & Teague Sterling & John J Irwin & Brian K Shoichet, 2013. "Ligand Pose and Orientational Sampling in Molecular Docking," PLOS ONE, Public Library of Science, vol. 8(10), pages 1-19, October.
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