双近红外发光纳米探针用于活生物体中 ClO 的比率型发光监测。

Dual Near-Infrared-Emissive Luminescent Nanoprobes for Ratiometric Luminescent Monitoring of ClO in Living Organisms.

机构信息

Department of Chemistry & State Key Laboratory of Molecular Engineering of Polymers & Institute of Biomedicine Sciences & Collaborative Innovation Center of Chemistry for Energy Materials , Fudan University , 2005 Songhu Road , Shanghai 200438 , P. R. China.

出版信息

ACS Appl Mater Interfaces. 2019 May 1;11(17):15298-15305. doi: 10.1021/acsami.9b02008. Epub 2019 Apr 22.

DOI:10.1021/acsami.9b02008

PMID:30977992

Abstract

The difficulty of near-infrared (NIR) ratiometric detection imaging lies in the lack of high-efficiency NIR probes and the overlapping interference between two emission peaks. To achieve more accurate detection in living organisms, dual NIR-emissive luminescent nanoprobes were designed under the same excitation at 808 nm. The Er ion-doped nanoparticles were employed as a reference with their fluorescence emission at 1525 nm. Meanwhile, a cyanine dye molecule (Cy925) was combined on the surface of nanoparticles as the ClO recognition site with its NIR emission at 925 nm. The ratiometric nanoprobe relied on the ratio of aforementioned two separated NIR peaks ( I/ I), featuring deeper imaging penetration depth and low autofluorescence. This nanoprobe was verified to be sensitive and highly selective to ClO through photoluminescence titration. The in vitro detection experiment developed reasonable work curves, guaranteeing that we can detect the change in concentration of ClO in mice limbs with arthritis through in vivo imaging experiments.

摘要

近红外（NIR）比率检测成像的难点在于缺乏高效的 NIR 探针以及两个发射峰之间的重叠干扰。为了在活体生物中实现更精确的检测，在 808nm 的相同激发下设计了双近红外发射发光纳米探针。掺铒纳米粒子被用作荧光发射在 1525nm 的参考。同时，在纳米粒子表面结合了一个菁染料分子（Cy925）作为 ClO 识别位点，其 NIR 发射在 925nm。比率纳米探针依赖于上述两个分离的 NIR 峰的比率（I/ I），具有更深的成像穿透深度和低自发荧光。通过光致发光滴定验证了该纳米探针对 ClO 具有灵敏和高选择性。体外检测实验开发了合理的工作曲线，保证了我们可以通过体内成像实验检测关节炎小鼠四肢中 ClO 浓度的变化。

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双近红外发光纳米探针用于活生物体中 ClO 的比率型发光监测。

Dual Near-Infrared-Emissive Luminescent Nanoprobes for Ratiometric Luminescent Monitoring of ClO in Living Organisms.

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