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A stable meta-carborane enables the generation of boron-rich peptide agonists targeting the ghrelin receptor.

Dennis J WormSylvia Els-HeindlMartin KellertRobert KuhnertStefan SaretzJohannes KoebberlingBernd RiedlEvamarie Hey-HawkinsAnnette G Beck-Sickinger
Published in: Journal of peptide science : an official publication of the European Peptide Society (2018)
Boron neutron capture therapy (BNCT) is a binary cancer therapy, which combines the biochemical targeting of a boron-containing drug with the regional localization of radiation treatment. Although the concept of BNCT has been known for decades, the selective delivery of boron into tumor cells remains challenging. G protein-coupled receptors that are overexpressed on cancer cells in combination with peptidic ligands can be potentially used as shuttle system for a tumor-directed boron uptake. In this study, we present the generation of short, boron-rich peptide conjugates that target the ghrelin receptor. Expression of the ghrelin receptor on various cancer cells makes it a viable target for BNCT. We designed a novel hexapeptide super-agonist that was modified with different specifically synthesized carborane monoclusters and tested for ghrelin receptor activation. A meta-carborane building block with a mercaptoacetic acid linker was found to be optimal for peptide modification, owing to its chemical stability and a suitable activation efficacy of the conjugate. The versatility of this carborane for the development of peptidic boron delivery agents was further demonstrated by the generation of highly potent, boron-loaded conjugates using the backbone of the known ghrelin receptor ligands growth hormone releasing peptide 6 and Ipamorelin.
Keyphrases
  • cancer therapy
  • growth hormone
  • drug delivery
  • emergency department
  • stem cells
  • radiation therapy
  • mesenchymal stem cells
  • ionic liquid
  • radiation induced
  • cell therapy