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Total Chemical Synthesis of an Intra-A-Chain Cystathionine Human Insulin Analogue with Enhanced Thermal Stability.

John A KarasNitin A PatilJulien TailhadesMarc-Antoine SaniDenis B ScanlonBriony E ForbesJames GardinerFrances SeparovicJohn D WadeMohammed Akhter Hossain
Published in: Angewandte Chemie (International ed. in English) (2016)
Despite recent advances in the treatment of diabetes mellitus, storage of insulin formulations at 4 °C is still necessary to minimize chemical degradation. This is problematic in tropical regions where reliable refrigeration is not ubiquitous. Some degradation byproducts are caused by disulfide shuffling of cystine that leads to covalently bonded oligomers. Consequently we examined the utility of the non-reducible cystine isostere, cystathionine, within the A-chain. Reported herein is an efficient method for forming this mimic using simple monomeric building blocks. The intra-A-chain cystathionine insulin analogue was obtained in good overall yield, chemically characterized and demonstrated to possess native binding affinity for the insulin receptor isoform B. It was also shown to possess significantly enhanced thermal stability indicating potential application to next-generation insulin analogues.
Keyphrases
  • type diabetes
  • glycemic control
  • endothelial cells
  • climate change
  • insulin resistance
  • binding protein
  • adipose tissue
  • weight loss
  • transcription factor
  • replacement therapy