PLoS Biology (Nov 2024)

A strategy to design protein-based antagonists against type I cytokine receptors.

  • Timo Ullrich,
  • Olga Klimenkova,
  • Christoph Pollmann,
  • Asma Lasram,
  • Valeriia Hatskovska,
  • Kateryna Maksymenko,
  • Matej Milijaš-Jotić,
  • Lukas Schenk,
  • Claudia Lengerke,
  • Marcus D Hartmann,
  • Jacob Piehler,
  • Julia Skokowa,
  • Mohammad ElGamacy

DOI
https://doi.org/10.1371/journal.pbio.3002883
Journal volume & issue
Vol. 22, no. 11
p. e3002883

Abstract

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Excessive cytokine signaling resulting from dysregulation of a cytokine or its receptor can be a main driver of cancer, autoimmune, or hematopoietic disorders. Here, we leverage protein design to create tailored cytokine receptor blockers with idealized properties. Specifically, we aimed to tackle the granulocyte-colony stimulating factor receptor (G-CSFR), a mediator of different types of leukemia and autoinflammatory diseases. By modifying designed G-CSFR binders, we engineered hyper-stable proteins that function as nanomolar signaling antagonists. X-ray crystallography showed atomic-level agreement with the experimental structure of an exemplary design. Furthermore, the most potent design blocks G-CSFR in acute myeloid leukemia cells and primary human hematopoietic stem cells. Thus, the resulting designs can be used for inhibiting or homing to G-CSFR-expressing cells. Our results also demonstrate that similarly designed cytokine mimics can be used to derive antagonists to tackle other type I cytokine receptors.