Organelle-Directed Staudinger Reaction Enabling Fluorescence-on Resolution of Mitochondrial Electropotentials via a Self-Immolative Charge Reversal Probe.

Abstract

Organelles often feature parameters pertinent to functions and yet responsive to biochemical stress. The electropotential across the mitochondrial membrane (ΔΨm) is a crucial mediator of cell fates. Herein we report a bioorthogonal reaction enabled fluorescence-on probing of ΔΨm alterations featuring anionic fluorescein-triphenylphosphonium diad (F-TPP), which is released via intramitochondria Staudinger reaction triggered self-immolation of o-azidomethylbenzoylated F-TPP. Compared to classical cationic mitochondria-specific dyes, F-TPP is hydrophilic and negatively charged. Effectively discerning ΔΨm changes upon diverse stress inducers, the organelle-directed bioorthogonal imaging strategy offers unprecedented choices to probe mitochondrial biology with functional molecules that are otherwise inaccessible via physiological organelle-probe affinity.