ABSTRACT
In this study, we synthesized six tetrazine-dipyrromethene boron difluoride (BODIPY) probes and achieved a remarkable up to 14-fold increase in singlet oxygen yield via tetrazine bioorthogonal click-to-release reactions. We systematically investigated the photodynamic activity of these probes, revealing crucial structure-activity relationships. Additionally, we evaluated the stability and release kinetics of these probes and identified P5 and P6 as ideal candidates for photodynamic therapy in live cells. This innovative strategy opens new avenues for fine-tuning the photodynamic properties of BODIPY dyes, thereby expanding their utility in cancer therapy.
ABSTRACT
This paper aimed to investigate the release efficiency of peptide at carbon terminal triggered by tetrazine bioorthogonal click-to-release reaction, and further explored the potential application of this reaction in functional modification and mild cleavage in solid-phase peptide synthesis. Thirteen peptide derivatives modified by trans-cyclooctene (TCO) were designed and synthesized, which were reacted with tetrazine to release the peptides. The results showed that the release rates of peptide were 90.0% to 97.7% in one hour. The strategy has good compatibility with the functional side-groups and the length of peptides, which expands the applications scope of tetrazine bioorthogonal click-to-release reaction. At the same time, a novel bifunctional trans-cyclooctene molecule was designed and synthesized. The active peptide GIRLRG was modified by fluorophore on the solid-phase resin, and released through tetrazine click-to-release reaction under mild condition, providing a new strategy for the solid-phase modification and release strategy of the peptide.