Imaging and Profiling of Proteins under Oxidative Conditions in Cells and Tissues by Hydrogen-Peroxide-Responsive Labeling

Reactive oxygen species (ROS) such as hydrogen peroxide (H2O2) can inflict damage to biomolecules under oxidative stress and also act as signaling molecules at physiological levels. Here we developed a unique chemical tool to elucidate the biological roles of ROS using both fluorescence imaging and conditional proteomics. H2O2-responsive protein labeling reagents (Hyp-L) were designed to selectively tag proteins under the oxidative conditions in living cells and tissues. The Hyp-L signal remained even after sample fixation, which was compatible with conventional immunostaining. Moreover, Hyp-L allowed proteomic profiling of the labeled proteins using a conditional proteomics workflow. The integrative analysis enabled the identification of ROS generation and/or accumulation sites with a subcellular resolution. For the first time, we characterized that autophagosomes were enriched with H2O2 in activated macrophages. Hyp-L was further applied to mouse brain tissues and clearly revealed oxidative stress within mitochondria by the conditional proteomics.