近红外开-关型荧光探针，通过 NTR 激活，用于活体缺氧成像。

Near-infrared off-on fluorescence probe activated by NTR for in vivo hypoxia imaging.

机构信息

Department of Biomedical Engineering, School of Engineering, China Pharmaceutical University, 24 Tongjia Lane, Gulou District, Nanjing 210009, China.

Key Laboratory of Pesticide and Chemical Biology, Ministry of Education, College of Chemistry, Central China Normal University, 152 Luolu Rd, Wuhan 430079, China.

出版信息

Biosens Bioelectron. 2018 Nov 15;119:141-148. doi: 10.1016/j.bios.2018.08.014. Epub 2018 Aug 9.

DOI:10.1016/j.bios.2018.08.014

PMID:30125874

Abstract

Selective and efficient detection and imaging of nitroreductase (NTR) overexpressed in hypoxic tissues is of great importance for better understanding its biological functions. The effective optical probes equipped for NTR detection in vivo is still lacking, so we developed an innovative near infrared (NIR) fluorescent on-off probe (Cy-NO) composed of fluorescence reporting unit (an aminocyaine dye) and recognition unit (p-nitrobenzylcarbamate group). The response and mechanism of the NTR activated reduction of Cy-NO were evaluated in vitro through kinetic optical studies, mass spectra analysis and docking calculations. The results demonstrated that Cy-NO could rapidly recognize NTR with high selectivity and sensitivity. The efficient NTR detection ability of Cy7-NO was further validated by fluorescence imaging of hypoxic cells (A549, PC-12 and HUVEC cell). Furthermore, the in vivo hypoxia imaging by Cy-NO were evaluated on tumor-bearing mouse, cerebral ischemia (CIS) and deep vein thrombosis models. The results indicated a rapid and distinct enhancement of its NIR fluorescence highly appropriate for in vivomonitoring of NTR in all of the three animal models, which revealed aspiring clinical value of this NIR fluorescent hypoxia probe.

摘要

选择性和高效地检测和成像在缺氧组织中过表达的硝基还原酶（NTR）对于更好地理解其生物学功能非常重要。目前仍然缺乏用于体内 NTR 检测的有效光学探针，因此我们开发了一种由荧光报告单元（氨基腈染料）和识别单元（对硝基苄基碳酸酯基团）组成的创新近红外（NIR）荧光开-关探针（Cy-NO）。通过动力学光学研究、质谱分析和对接计算，评估了 NTR 激活还原 Cy-NO 的反应和机制。结果表明，Cy-NO 能够快速、高选择性和高灵敏度地识别 NTR。Cy7-NO 的高效 NTR 检测能力通过缺氧细胞（A549、PC-12 和 HUVEC 细胞）的荧光成像进一步得到了验证。此外，还在荷瘤小鼠、脑缺血（CIS）和深静脉血栓形成模型上评估了 Cy-NO 的体内缺氧成像。结果表明，其近红外荧光的快速、明显增强非常适合三种动物模型中的 NTR 体内监测，这揭示了这种近红外荧光缺氧探针具有有前途的临床应用价值。

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近红外开-关型荧光探针，通过 NTR 激活，用于活体缺氧成像。

Near-infrared off-on fluorescence probe activated by NTR for in vivo hypoxia imaging.

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