用于缺氧成像的偶氮取代喹啉-丙二腈酶促聚集诱导发射纳米探针

Zhirong Zhu, Shichang Liu, Xupeng Wu, Qianqian Yu, Yi Duan, Shanshan Hu, Wei-Hong Zhu, Qi Wang
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引用次数: 0

摘要

开发高效的聚集诱导发射(AIE)活性探针对于疾病诊断,尤其是肿瘤和心血管疾病诊断至关重要。目前的聚集诱导发射活性探针主要侧重于提高其水溶性以抵抗聚集,从而实现初始荧光关闭状态。然而,复杂的生物环境可能会导致不良的聚集,从而产生错误信号。为了解决这个问题,我们在 AIE 发光体(AIEgen)中巧妙地引入了偶氮基团,开发出一种还原酶激活的 AIE 探针--偶氮喹啉-丙二腈(QM)-PN,用于缺氧环境成像。在该探针中,偶氮基团通过快速的 E/Z 异构化促进分子内运动,使激发态能量通过非辐射衰减耗散,从而关闭初始荧光。在还原酶的作用下,Azo-QM-PN 被还原和裂解,生成疏水性 AIEgen NH2-QM-PN,随后聚集并产生原位 AIE 信号,从而利用还原酶对缺氧环境进行成像。将 Azo-QM-PN 与 DSPE-PEG2000 包裹在一起,就形成了纳米探针 Azo-QM-PN NPs,它能有效穿透细胞膜,特异性地照亮肿瘤细胞,监测偶氮还原酶水平的波动,并能深入穿透多细胞肿瘤球体并成像,显示了缺氧肿瘤成像的潜力。此外,纳米探针 Azo-QM-PN NPs 可选择性地对缺氧的动脉粥样硬化斑块组织成像,显示了检测动脉粥样硬化的潜力。因此,在这项研究中,我们成功开发了一种用于缺氧环境成像的酶激活 AIE 探针,为进一步的临床应用奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

An azo substituted quinoline-malononitrile enzyme-activable aggregation-induced emission nanoprobe for hypoxia imaging

An azo substituted quinoline-malononitrile enzyme-activable aggregation-induced emission nanoprobe for hypoxia imaging
The development of efficient aggregation-induced emission (AIE) active probes is crucial for disease diagnosis, particularly for tumors and cardiovascular diseases. Current AIE-active probes primarily focus on improving their water solubility to resist aggregation, thereby achieving an initial fluorescence-off state. However, the complex biological environment can cause undesirable aggregation, resulting in false signals. To address this issue, we have ingeniously introduced an azo group into the AIE luminogen (AIEgen), developing a reductase-activated AIE probe, Azo-quinoline-malononitrile (QM)-PN, for imaging hypoxic environments. In this probe, the azo group promotes intramolecular motion through rapid E/Z isomerization, causing the excited state energy to dissipate via non-radiative decay, thus turning off the initial fluorescence. In the presence of reductase, Azo-QM-PN is reduced and cleaved to produce the hydrophobic AIEgen NH2-QM-PN, which subsequently aggregates and generates an in situ AIE signal, thereby imaging the hypoxic environment with reductase. Encapsulation of Azo-QM-PN with DSPE-PEG2000 results in the formation of the nanoprobe Azo-QM-PN NPs, which can effectively penetrate cell membranes, specifically illuminate tumor cells, monitor fluctuations in azo reductase levels, and deeply penetrate and image multicellular tumor spheroids, demonstrating potential for hypoxic tumor imaging. Additionally, the nanoprobe Azo-QM-PN NPs can selectively image hypoxic atherosclerotic plaque tissues, showing potential for detecting atherosclerosis. Therefore, in this study, we successfully developed an enzyme-activated AIE probe for imaging hypoxic environments, laying the foundation for further clinical applications.
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