Chameleon-Like Fluorescent Probe for Monitoring Interplays between Three Organelles and Reporting Cell Damage Processes through Dramatic Color Change.

The in-depth study of the interplay and cooperation between multiple organelles is an important biological task. Single fluorescent probes for separate visualization of multiple organelles is a desirable molecular tool, but the construction of such a probe is extremely difficult owing to the lack of valid strategies. In this work, utilizing the reversible cyclization reaction and intermolecular π stacking mechanism, a robust fluorescent probe is constructed to discriminatively illuminate lipid droplets (LDs), mitochondria, and lysosomes with blue, green, and red emission colors, respectively. Using the probe, the interplays and cooperation between LDs, mitochondria, and lysosomes are successfully studied, and the critical roles of lysosomes and LDs during mitochondrial fission are successfully revealed. Furthermore, this unique probe reveals the sequential damage of mitochondria and lysosomes during apoptosis through the successive fading of green and red emission. Thereby, the probe enables the discrimination of health state, early apoptosis, and late apoptosis of cells with three different sets of fluorescent signals. Overall, the robust probe is a desirable molecular tool to reveal the interactions between the three organelles, and investigate cell apoptosis and relative areas.