Macrocyclic "tet a" derived colorimetric sensor for the detection of mercury cations and hydrogen sulphate anions and its bio-imaging in living cells

Abstract

A mono-N-substituted probe L containing a bromosalicylaldehyde pendant arm attached to a tetraazamacrocyclic "tet a" moiety was synthesized via straight forward reaction. The probe L crystallizes in a monoclinic P2₁/n space group. The probe L displayed quick sensitivity and selectivity towards Hg²⁺ ions due to its hopeful Chelation Enhancement Quenching (CHEQ) feature. Interestingly, the probe L exhibits turn-off fluorescence response to Hg²⁺ ion and turn-on fluorescence signals to HSO₄^- ions. When the probe L was complexed with HSO₄^- in 1:1 mode (L + HSO₄^- formation), improved turn-on fluorescence emission was detected due to the chelation enhanced fluorescence effect through sensor complex. The macrocyclic "tet a" probe L exhibited a binding constant value of 3.89 × 10⁶ M^-1 and 5.58 × 10⁵ M^-1 for Hg²⁺ and HSO₄^-, respectively. Probe L exhibited good selectivity to Hg²⁺ rather than other common metal ions and HSO₄^- over other common anions. The limit of detection (LOD) of Hg²⁺ and HSO₄^- were found to be 1 nM and 7 μM, respectively. The time-resolved fluorescence emission single-photon counting study was used to determine the average lifetime value for the probe L and L + HSO₄^- ions as 0.47 and 1.02 ns, respectively. The practical application of the probe in visualizing intracellular Hg²⁺ and HSO₄^- ions distribution in live Artemia salina was demonstrated. Furthermore, the probe L with Hg²⁺cations was found to be cytotoxic against breast cancer cells in nature and can be delivered as an anticancer agent. Besides the probe L with HSO₄^- exhibit strong fluorescence emission with low cytotoxicity, and it can be recommended for live-cell imaging.

Keywords: Bio-imaging application; Colorimetric sensor; Mercury & hydrogen sulphate ion sensor; N-substituted macrocyclic “tet a” ligand.