Bioluminescence Resonance Energy Transfer (BRET)-Mediated Protein Release from Self-Illuminating Photoresponsive Biomaterials

Phototriggered release of various cargos, including soluble protein factors and small molecules, has the potential to correct aberrant biological events by offering spatiotemporal control over local therapeutic levels. However, the poor penetration depth of light historically limits implementation to subdermal regions, necessitating alternative methods of light delivery to achieve the full potential of photodynamic therapeutic release. Here, we introduce a strategy exploiting bioluminescence resonance energy transfer (BRET)-an energy transfer process between light-emitting Nanoluciferase (NLuc) and a photosensitive acceptor molecule-to drive biomolecule release from hydrogel biomaterials. Through a facile, one-pot, and high-yielding synthesis (60-70%), we synthesized a heterobifunctional ruthenium cross-linker bearing an aldehyde and an azide (CHO-Ru-N