Nature Communications (Jul 2024)

Enhanced disulphide bond stability contributes to the once-weekly profile of insulin icodec

  • František Hubálek,
  • Christian N. Cramer,
  • Hans Helleberg,
  • Eva Johansson,
  • Erica Nishimura,
  • Gerd Schluckebier,
  • Dorte Bjerre Steensgaard,
  • Jeppe Sturis,
  • Thomas B. Kjeldsen

DOI
https://doi.org/10.1038/s41467-024-50477-9
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Insulin icodec is a once-weekly insulin analogue that has a long half-life of approximately 7 days, making it suitable for once weekly dosing. The Insulin icodec molecule was developed based on the hypothesis that lowering insulin receptor affinity and introducing a strong albumin-binding moiety would result in a long insulin half-life, provided that non-receptor-mediated clearance is diminished. Here, we report an insulin clearance mechanism, resulting in the splitting of insulin molecules into its A-chain and B-chain by a thiol–disulphide exchange reaction. Even though the substitutions in insulin icodec significantly stabilise insulin against such degradation, some free B-chain is observed in plasma samples from minipigs and people with type 2 diabetes. In summary, we identify thiol–disulphide exchange reactions to be an important insulin clearance mechanism and find that stabilising insulin icodec towards this reaction significantly contributes to its long pharmacokinetic/pharmacodynamic profile.