Department of Chemistry Jadavpur University, Kolkata 700 032, India.
Dalton Trans. 2019 Feb 19;48(8):2760-2771. doi: 10.1039/c8dt04564j.
We introduce herein, a novel copper complex-based fluorescent probe [CuII(DQ468)Cl]+ that exhibits a significant fluorescence turn-on response towards nitroxyl (HNO) with high selectivity over other biological reactive oxygen, nitrogen and sulfur species, including nitric oxide (NO). A smart strategy, involving HNO-induced reduction of paramagnetic [CuII(DQ468)Cl]+ to diamagnetic [CuI(DQ468)]+ with concomitant fluorescence enhancement via a PET mechanism is focused here. This reduction-based strategy was also supported by X-band EPR response and mass spectroscopy. The metal free probe (DQ468) showed high affinity towards Cu2+ to form [CuII(DQ468)Cl]+ with a 0.091 μM detection limit, which subsequently enabled the detection of HNO in an organo-aqueous medium at biological pH (7.4) in the green wavelength region (λem = 543 nm) with a LOD of 0.41 μM. The ground-state geometries of DQ468, [CuII(DQ468)Cl]+ and [CuI(DQ468)]+ were optimized by DFT calculations, which revealed that the central metal ion in [CuII(DQ468)Cl]+ is in a distorted tetrahedral geometry with the C1 point group. Additionally, the negligible cytotoxicity and good biocompatibility make the developed probe useful for the in vitro detection of HNO.
我们在此介绍了一种新型的基于铜配合物的荧光探针 [CuII(DQ468)Cl]+,它对亚硝酰基(HNO)具有显著的荧光开启响应,对其他生物活性氧、氮和硫物种具有高选择性,包括一氧化氮(NO)。这里集中讨论了一种智能策略,涉及 HNO 诱导的顺磁性 [CuII(DQ468)Cl]+还原为抗磁性 [CuI(DQ468)]+,同时通过 PET 机制增强荧光。这种基于还原的策略也得到了 X 波段 EPR 响应和质谱的支持。金属自由探针(DQ468)对 Cu2+具有高亲和力,形成 [CuII(DQ468)Cl]+,检测限为 0.091 μM,随后能够在生物 pH(7.4)下在有机-水介质中在绿色波长区域(λem = 543nm)检测 HNO,LOD 为 0.41 μM。通过 DFT 计算优化了 DQ468、[CuII(DQ468)Cl]+和[CuI(DQ468)]+的基态几何形状,结果表明[CuII(DQ468)Cl]+中的中心金属离子具有扭曲的四面体形几何形状,C1 点群。此外,可忽略的细胞毒性和良好的生物相容性使开发的探针可用于体外检测 HNO。
