On-off-on relay fluorescence recognition of ferric and fluoride ions based on indicator displacement in living cells

Abstract

A new boronic acid derivative functionalized with a 4-(3-(4-(4,5-diphenyl-1H-imidazole-2-yl)phenyl)-1,2,4-oxadiazol-5-yl)phenyl (IOP) moiety was synthesized for use as a sequential "on-off-on"-type relay fluorescence probe for Fe³⁺ ions and F^- ions with high selectivity and sensitivity under physiological conditions. The introduction of Fe³⁺ to IOP boronic acid (IOPBA) formed an Fe³⁺IOPBA complex, which led to quenching of the blue fluorescence intensity at 458 nm. The lowest-energy conformation of IOPBA was theoretically predicted to adopt an extended structure, and the Fe³⁺ ion in the Fe³⁺IOPBA complex was coordinated to two phenyl groups to form a π-complex. Upon addition of F^- to the Fe³⁺IOPBA complex, the original fluorescence was recovered due to formation of [FeF₆]^3‒, resulting in "on-off-on"-type sensor behavior. IOPBA showed high selectivity towards Fe³⁺ among other cations. Moreover, the Fe³⁺IOPBA complex showed specific selectivity towards F^-, with other cations and anions not interfering with detection. Both sensing processes showed 1:1 stoichiometry with binding constants of 6.87 × 10⁶ and 4.49 × 10⁶ mol^-1 L for Fe³⁺ with IOPBA and F^- with Fe³⁺IOPBA, respectively. The limits of detection for Fe³⁺ and F^- were 10 and 1 nM, respectively. The proposed method was successfully applied in real water samples. Furthermore, the probe had low cytotoxicity and was successfully used as a bioimaging reagent to detect intracellular Fe³⁺ and F^- in living HeLa cells.

Keywords: Boronic acid derivative; Fluorescence imaging; Living HeLa cells; Probe for Fe(3+) ions and F(−); ions; “On-off-on” sensor.