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Molecular Engineering of Efficacious Mono-Valent Ultra-Long Acting Two-Chain Insulin-Fc Conjugates.

Tina Møller TagmoseKaren-Margrethe PedersenLone PridalCarsten Enggaard StidsenMarie Ø PedersenZhaosheng LinYuanyuan ZhangZhe WanMercedes FerrerasHelle NaverPeter K NielsenZheng CaoYi WangLennart LykkeJosefine L ChristensenVictoria S JensenValentina ManfèThomas Å PedersenEva JohanssonPeter MadsenJános T KodraMartin MünzelLeonardo De MariaErica NishimuraThomas B Kjeldsen
Published in: Journal of medicinal chemistry (2022)
Here, we describe molecular engineering of monovalent ultra-long acting two-chain insulin-Fc conjugates. Insulin-Fc conjugates were synthesized using trifunctional linkers with one amino reactive group for reaction with a lysine residue of insulin and two thiol reactive groups used for re-bridging of a disulfide bond within the Fc molecule. The ultra-long pharmacokinetic profile of the insulin-Fc conjugates was the result of concertedly slowing insulin receptor-mediated clearance by (1) introduction of amino acid substitutions that lowered the insulin receptor affinity and (2) conjugating insulin to the Fc element. Fc conjugation leads to recycling by the neonatal Fc receptor and increase in the molecular size, both contributing to the ultra-long pharmacokinetic and pharmacodynamic profiles.
Keyphrases
  • type diabetes
  • glycemic control
  • high resolution
  • amino acid
  • metabolic syndrome
  • drug delivery
  • insulin resistance
  • adipose tissue
  • weight loss