Litcius/Paper detail

Silicon Rhodamine-Catalyzed Near-Infrared Light-Induced Photodecaging of Ortho-Nitrobenzyl Groups In Vitro and In Vivo

Xiaosa Yan, Jiahui Zhao, Qing Wang, Wenjing Wang, Yanchao Ding, Yutong Zhou, Gang Chen, Juanjuan Du, Weiren Huang, Ling Chu

2025Journal of the American Chemical Society9 citationsDOI

Abstract

The ortho-nitrobenzyl (ONB) group is one of the most widely utilized photocages for spatiotemporal control of biological processes via the light-triggered activation of small molecules and macromolecules. However, a significant limitation is that ONB photocages typically absorb in the UV/blue light region, which is phototoxic to living systems and exhibits limited tissue penetration. In this study, we present a novel approach for near-infrared (NIR) light-triggered photodecaging of the ONB core using silicon rhodamine (SiR) as a photoredox catalyst. The reaction efficiently uncages ONB substrates under 660 nm light irradiation, achieving high yields across a diverse range of substrates, including amino acids, nucleotides, prodrugs, bioactive small molecules, caged fluorescent dyes, and proteins. Mechanistic studies demonstrate that the uncaging reaction proceeds through nitroreduction via a single electron transfer mechanism, followed by an electron cascade-triggered self-immolation process. The reaction has been successfully applied in both mammalian cells and bacteria. Furthermore, we developed a NIR light-activated prodrug release protocol for antibody-drug conjugates (ADCs) targeting noninternalizable cancer cell surface markers and demonstrated the utility of this approach in a tumor-bearing mouse model.

Topics & Concepts

ChemistryIn vivoIn vitroCatalysisRhodamineInfraredSiliconPhotochemistryRhodamine BBiophysicsOrganic chemistryBiochemistryFluorescenceOpticsPhotocatalysisBiotechnologyBiologyPhysicsPhotochromic and Fluorescence ChemistryPhotoreceptor and optogenetics researchRadical Photochemical Reactions