Communications Biology (Aug 2023)

Molecular reshaping of phage-displayed Interleukin-2 at beta chain receptor interface to obtain potent super-agonists with improved developability profiles

  • Gertrudis Rojas,
  • Ernesto Relova-Hernández,
  • Annia Pérez-Riverón,
  • Camila Castro-Martínez,
  • Osmany Diaz-Bravo,
  • Yanelys Cabrera Infante,
  • Tania Gómez,
  • Joaquín Solozábal,
  • Ana Beatriz DíazBravo,
  • Maren Schubert,
  • Marlies Becker,
  • Beatriz Pérez-Massón,
  • Dayana Pérez-Martínez,
  • Rydell Alvarez-Arzola,
  • Osmany Guirola,
  • Glay Chinea,
  • Luis Graca,
  • Stefan Dübel,
  • Kalet León,
  • Tania Carmenate

DOI
https://doi.org/10.1038/s42003-023-05188-0
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 20

Abstract

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Abstract Interleukin-2 (IL-2) engineered versions, with biased immunological functions, have emerged from yeast display and rational design. Here we reshaped the human IL-2 interface with the IL-2 receptor beta chain through the screening of phage-displayed libraries. Multiple beta super-binders were obtained, having increased receptor binding ability and improved developability profiles. Selected variants exhibit an accumulation of negatively charged residues at the interface, which provides a better electrostatic complementarity to the beta chain, and faster association kinetics. These findings point to mechanistic differences with the already reported superkines, characterized by a conformational switch due to the rearrangement of the hydrophobic core. The molecular bases of the favourable developability profile were tracked to a single residue: L92. Recombinant Fc-fusion proteins including our variants are superior to those based on H9 superkine in terms of expression levels in mammalian cells, aggregation resistance, stability, in vivo enhancement of immune effector responses, and anti-tumour effect.