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Discovery of a selective and biologically active low-molecular weight antagonist of human interleukin-1β

Author

Listed:
  • Ulrich Hommel

    (Novartis Campus)

  • Konstanze Hurth

    (Novartis Campus)

  • Jean-Michel Rondeau

    (Novartis Campus)

  • Anna Vulpetti

    (Novartis Campus)

  • Daniela Ostermeier

    (Novartis Campus)

  • Andreas Boettcher

    (Novartis Campus)

  • Jacob Peter Brady

    (250 Massachusetts Avenue)

  • Michael Hediger

    (Novartis Campus)

  • Sylvie Lehmann

    (Novartis Campus)

  • Elke Koch

    (Novartis Campus)

  • Anke Blechschmidt

    (Novartis Campus)

  • Rina Yamamoto

    (Novartis Campus)

  • Valentina Tundo Dottorello

    (Novartis Campus)

  • Sandra Haenni-Holzinger

    (Novartis Campus)

  • Christian Kaiser

    (Novartis Campus)

  • Philipp Lehr

    (Novartis Campus)

  • Andreas Lingel

    (Novartis Campus)

  • Luca Mureddu

    (University of Leicester)

  • Christian Schleberger

    (Novartis Campus)

  • Jutta Blank

    (Novartis Campus)

  • Paul Ramage

    (Novartis Campus)

  • Felix Freuler

    (Novartis Campus)

  • Joerg Eder

    (Novartis Campus)

  • Frédéric Bornancin

    (Novartis Campus)

Abstract

Human interleukin-1β (hIL-1β) is a pro-inflammatory cytokine involved in many diseases. While hIL-1β directed antibodies have shown clinical benefit, an orally available low-molecular weight antagonist is still elusive, limiting the applications of hIL-1β-directed therapies. Here we describe the discovery of a low-molecular weight hIL-1β antagonist that blocks the interaction with the IL-1R1 receptor. Starting from a low affinity fragment-based screening hit 1, structure-based optimization resulted in a compound (S)-2 that binds and antagonizes hIL-1β with single-digit micromolar activity in biophysical, biochemical, and cellular assays. X-ray analysis reveals an allosteric mode of action that involves a hitherto unknown binding site in hIL-1β encompassing two loops involved in hIL-1R1/hIL-1β interactions. We show that residues of this binding site are part of a conformationally excited state of the mature cytokine. The compound antagonizes hIL-1β function in cells, including primary human fibroblasts, demonstrating the relevance of this discovery for future development of hIL-1β directed therapeutics.

Suggested Citation

  • Ulrich Hommel & Konstanze Hurth & Jean-Michel Rondeau & Anna Vulpetti & Daniela Ostermeier & Andreas Boettcher & Jacob Peter Brady & Michael Hediger & Sylvie Lehmann & Elke Koch & Anke Blechschmidt & , 2023. "Discovery of a selective and biologically active low-molecular weight antagonist of human interleukin-1β," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41190-0
    DOI: 10.1038/s41467-023-41190-0
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    References listed on IDEAS

    as
    1. Herman Schreuder & Chantal Tardif & Susanne Trump-Kallmeyer & Adolfo Soffientini & Edoardo Sarubbi & Ann Akeson & Terry Bowlin & Stephen Yanofsky & Ronald W. Barrett, 1997. "A new cytokine-receptor binding mode revealed by the crystal structure of the IL-1 receptor with an antagonist," Nature, Nature, vol. 386(6621), pages 194-200, March.
    2. Guy P. A. Vigers & Lana J. Anderson & Patricia Caffes & Barbara J. Brandhuber, 1997. "Crystal structure of the type-I interleukin-1 receptor complexed with interleukin-1β," Nature, Nature, vol. 386(6621), pages 190-194, March.
    3. William Hill & Emilia L. Lim & Clare E. Weeden & Claudia Lee & Marcellus Augustine & Kezhong Chen & Feng-Che Kuan & Fabio Marongiu & Edward J. Evans & David A. Moore & Felipe S. Rodrigues & Oriol Pich, 2023. "Lung adenocarcinoma promotion by air pollutants," Nature, Nature, vol. 616(7955), pages 159-167, April.
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