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Bioorthogonal Removal of 3-Isocyanopropyl Groups Enables the Controlled Release of Fluorophores and Drugs in Vivo.

Julian TuMinghao XuSaba ParvezRandall T PetersonRaphael M Franzini
Published in: Journal of the American Chemical Society (2018)
Dissociative bioorthogonal reactions allow for chemically controlling the release of bioactive agents and reporter probes. Here we describe 3-isocyanopropyl substituents as masking groups that can be effectively removed in biological systems. 3-Isocyanopropyl derivatives react with tetrazines to afford 3-oxopropyl groups that eliminate diverse functionalities. The study shows that the reaction is rapid and can liberate phenols and amines near-quantitatively under physiological conditions. The reaction is compatible with living organisms as demonstrated by the release of a resorufin fluorophore and a mexiletine drug in zebrafish embryos implanted with tetrazine-modified beads. The combined benefits of synthetic ease, rapid kinetics, diversity of leaving groups, high release yields, and structural compactness, make 3-isocyanopropyl derivatives attractive chemical caging moieties for uses in chemical biology and drug delivery.
Keyphrases
  • drug delivery
  • crispr cas
  • emergency department
  • fluorescence imaging
  • drug release
  • nucleic acid