Nature Communications (Sep 2023)

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

  • Ulrich Hommel,
  • Konstanze Hurth,
  • Jean-Michel Rondeau,
  • Anna Vulpetti,
  • Daniela Ostermeier,
  • Andreas Boettcher,
  • Jacob Peter Brady,
  • Michael Hediger,
  • Sylvie Lehmann,
  • Elke Koch,
  • Anke Blechschmidt,
  • Rina Yamamoto,
  • Valentina Tundo Dottorello,
  • Sandra Haenni-Holzinger,
  • Christian Kaiser,
  • Philipp Lehr,
  • Andreas Lingel,
  • Luca Mureddu,
  • Christian Schleberger,
  • Jutta Blank,
  • Paul Ramage,
  • Felix Freuler,
  • Joerg Eder,
  • Frédéric Bornancin

DOI
https://doi.org/10.1038/s41467-023-41190-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 13

Abstract

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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.