一种用于活细胞中次氯酸根离子检测的新型线粒体靶向磷光探针。

A novel mitochondria-targeted phosphorescence probe for hypochlorite ions detection in living cells.

机构信息

College of Chemical Engineering, Fuzhou University, Fuzhou, 350116, PR China; Institute of Food Safety and Environment Monitoring of Photo-catalysis on Energy and Environment College of Chemistry, Fuzhou University, Fuzhou, 350116, PR China.

College of Chemical Engineering, Fuzhou University, Fuzhou, 350116, PR China.

出版信息

Talanta. 2020 Mar 1;209:120516. doi: 10.1016/j.talanta.2019.120516. Epub 2019 Oct 31.

DOI:10.1016/j.talanta.2019.120516

PMID:31892012

Abstract

Monitoring hypochlorite anion (ClO) in living cells is particularly meaningful and valuable, because over-exposure of the ClO may cause a potential health hazard towards animals and humans. Considering the special structure and properties of the gemini surfactant, a novel amphiphilic gemini-iridium complex Ir[(ppy-iso)(bpy-tmaBr)] (Ir-iso) with isoniazide as a recognition site for ClO was designed. The Ir-iso possessed an excellent water-solubility as well as a strong ClO binding capacity, as revealed from the rapid response of emission signal towards ClO. It was worth noting that such probe had a highly-specific selectivity with a low detection limit (20.5 nM) and was suitable in physiological environment. The cell viability assay, cell imaging, and co-location studies further proved that the Ir-iso had little cytotoxicity and was specifically localized in the mitochondria of breast cancer cells, being a promising candidate of chemo-sensor to detect the endogenous ClO in living cells.

摘要

监测活细胞中的次氯酸根阴离子（ClO）特别有意义和有价值，因为过度暴露于 ClO 可能会对动物和人类造成潜在的健康危害。考虑到双子表面活性剂的特殊结构和性质，设计了一种新型两亲性双子铱配合物 Ir[(ppy-iso)(bpy-tmaBr)]（Ir-iso），其异烟肼作为 ClO 的识别位点。Ir-iso 具有出色的水溶性和强的 ClO 结合能力，从发射信号对 ClO 的快速响应中可以看出。值得注意的是，该探针具有高特异性选择性，检测限低（20.5 nM），适用于生理环境。细胞活力测定、细胞成像和共定位研究进一步证明，Ir-iso 具有低细胞毒性，特异性定位于乳腺癌细胞的线粒体中，是一种很有前途的化学传感器候选物，可用于检测活细胞内的内源性 ClO。

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一种用于活细胞中次氯酸根离子检测的新型线粒体靶向磷光探针。

A novel mitochondria-targeted phosphorescence probe for hypochlorite ions detection in living cells.

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