A convenient tool for detecting iron ions in subcellular structures is desired for better understanding its roles in biological systems. In this work, a new Fe 3þ sensor, 2-(2-((1-(6-acetylpyridin-2-yl)ethylidene)amino)ethyl)-3',6'-bis(diethylamino)spiro[isoindoline-1,9'-xanthen]-3-one (RhPK), which operates across the entire cellular pH range and is capable of unambiguously detecting Fe 3þ ion in live human cells at subcellular resolution, is reported. The sensor exhibits high selectivity and sensitivity toward Fe 3þ with a rapid fluorescence response and a 12-fold increase in intensity upon the addition of 1 equivalent Fe 3þ at pH 7.3. RhPK forms a 1:1 complex with Fe 3þ with an apparent binding constant 1.54 Â 10 7 M À1 and a detection limit of 50 nM. The sensor is stable between pH 4.2 and 9.0 and operates across the whole cellular pH range. Cell imaging demonstrates the ability of the sensor to unambiguously detect basal level Fe 3þ as well as its dynamic changes in real-time in live cells at subcellular resolution, with one labile Fe 3þ pool identified in mitochondria in human primary fibroblast (ws1) cells for the first time and two Fe 3þ pools confirmed in mitochondria and endo/lysosomes in human SH-SY5Y neuroblastoma cells, suggesting different cell types have distinctive Fe 3þ storage in subcellular compartments. The RhPK probe is powerful for rapid and sensitive bioimaging of Fe 3þ at subcellular level, enabling the unambiguous detection of labile Fe 3þ pools at the entire cellular pH range, which is of great significance to understand the biological chemistry of Fe 3þ and its roles in physiological processes and diseases.
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