New near-infrared fluorescent probe for imaging superoxide anion of cell membrane.

Bokai Ma, Ziyin Chai, Ya Liu, Zixu He, Xinqi Chen, Chong Qian, Yongjia Chen, Weizhi Wang, Zihui Meng
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Abstract

Selective imaging of superoxide anion is important for understanding its role in cell membrane biology, but is often a challenging task because of the lack of an effective fluorescence probe. In this study, a new near-infrared fluorescent probe (SHX-O) that can target cell membrane was developed for imaging superoxide anion. SHX-O was designed by simultaneously incorporating a sulfonated bis-indole and a diphenylphosphinyl recognition group into the hemicyanine moiety. The probe itself showed a rather weak fluorescence due to the hemicyanine's hydroxyl substitution; however, its reaction with superoxide anion caused a large enhancement of near-infrared fluorescence at 790 nm. Moreover, SHX-O exhibited not only high selectivity for superoxide anion over other reactive oxygen species, but also specific cell membrane localization, which may be attributed to the probe's amphiphilic structure. Using the probe, fluorescence imaging of cell membrane superoxide anion produced in the presence of xanthine oxidase and xanthine has been achieved in living cells. We believe that SHX-O may serve as a potential tool for imaging and investigating superoxide anion of cell membrane.

用于细胞膜超氧阴离子成像的新型近红外荧光探针。
超氧阴离子的选择性成像对于了解其在细胞膜生物学中的作用非常重要,但由于缺乏有效的荧光探针,这往往是一项具有挑战性的任务。本研究开发了一种可靶向细胞膜的新型近红外荧光探针(SHX-O),用于超氧阴离子成像。SHX-O 是通过在半氰胺分子中同时加入磺化双吲哚和二苯基膦酰识别基团而设计的。由于半氰基的羟基取代,探针本身的荧光很弱;但是,它与超氧阴离子反应后,在 790 纳米波长处的近红外荧光大大增强。此外,SHX-O 不仅对超氧阴离子(而非其他活性氧物种)具有高选择性,而且还具有特异性的细胞膜定位能力,这可能与探针的两亲结构有关。利用该探针,在活细胞中实现了对黄嘌呤氧化酶和黄嘌呤存在下产生的细胞膜超氧阴离子的荧光成像。我们相信,SHX-O 可能成为细胞膜超氧阴离子成像和研究的一种潜在工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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