Hemin as a General Static Dark Quencher for Constructing Heme Oxygenase-1 Fluorescent Probes

The development of small-molecule probes suitable for live-cell applications remains challenging yet highly desirable. We report the first fluorescent probe, RBH, for imaging the heme oxygenase-1 (HO-1) activity in live cells after discovering hemin as a universal dark quencher. Hemin works via a static quenching mechanism and shows high quenching efficiency (>97 %) with fluorophores across a broad spectrum (?(ex)=400-700 nm). The favorable properties of RBH (e.g. long excitation/emission wavelengths, fast response rate and high magnitude of signal increase) enable its use for determining HO-1 activity in complex biological samples. As HO-1 is involved in regulating antioxidant defence, iron homeostasis and gasotransmitter carbon monoxide production, we expect RBH to be a powerful tool for dissecting its functions. Also, the discovery of hemin as a general static dark quencher provides a straightforward strategy for constructing novel fluorescent probes for diverse biological species.

Automated summary

We report a new fluorescent probe, RBH, for imaging HO-1 activity in live cells, utilizing hemin as a universal static quencher. RBH has favorable properties such as long excitation/emission wavelengths, fast response rate, and high signal increase, enabling its use for determining HO-1 activity in complex biological samples. The discovery of hemin as a general static dark quencher provides a straightforward strategy for constructing novel fluorescent probes.