Communications Medicine (Mar 2024)

A CD25-biased interleukin-2 for autoimmune therapy engineered via a semi-synthetic organism

  • Jerod L. Ptacin,
  • Lina Ma,
  • Carolina E. Caffaro,
  • Nicole V. Acuff,
  • Kristine Germar,
  • Peter Severy,
  • Yanyan Qu,
  • Jose-Luis Vela,
  • Xinming Cai,
  • Kristine M. San Jose,
  • Hans R. Aerni,
  • David B. Chen,
  • Ean Esche,
  • Taylor K. Ismaili,
  • Rob Herman,
  • Yelena Pavlova,
  • Michael J. Pena,
  • Jasmine Nguyen,
  • Lilia K. Koriazova,
  • Laura K. Shawver,
  • Ingrid B. Joseph,
  • Jill Mooney,
  • Mark Peakman,
  • Marcos E. Milla

DOI
https://doi.org/10.1038/s43856-024-00485-z
Journal volume & issue
Vol. 4, no. 1
pp. 1 – 16

Abstract

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Abstract Background Natural cytokines are poorly suited as therapeutics for systemic administration due to suboptimal pharmacological and pharmacokinetic (PK) properties. Recombinant human interleukin-2 (rhIL-2) has shown promise for treatment of autoimmune (AI) disorders yet exhibits short systemic half-life and opposing immune responses that negate an appropriate therapeutic index. Methods A semi-synthetic microbial technology platform was used to engineer a site-specifically pegylated form of rhIL-2 with enhanced PK, specificity for induction of immune-suppressive regulatory CD4 + T cells (Tregs), and reduced stimulation of off-target effector T and NK cells. A library of rhIL-2 molecules was constructed with single site-specific, biorthogonal chemistry-compatible non-canonical amino acids installed near the interface where IL-2 engages its cognate receptor βγ (IL-2Rβγ) signaling complex. Biorthogonal site-specific pegylation and functional screening identified variants that retained engagement of the IL-2Rα chain with attenuated potency at the IL-2Rβγ complex. Results Phenotypic screening in mouse identifies SAR444336 (SAR’336; formerly known as THOR-809), rhIL-2 pegylated at H16, as a potential development candidate that specifically expands peripheral CD4+ Tregs with upregulation of markers that correlate with their suppressive function including FoxP3, ICOS and Helios, yet minimally expands CD8 + T or NK cells. In non-human primate, administration of SAR’336 also induces dose-dependent expansion of Tregs and upregulated suppressive markers without significant expansion of CD8 + T or NK cells. SAR’336 administration reduces inflammation in a delayed-type hypersensitivity mouse model, potently suppressing CD4+ and CD8 + T cell proliferation. Conclusion SAR’336 is a specific Treg activator, supporting its further development for the treatment of AI diseases.