Detecting Changes in Singlet Oxygen and Viscosity during Apoptosis-Ferroptosis Mediated Photodynamic Therapy and Establishing Visual Imaging of Fatty Liver

IF 9.1 1区化学 Q1 CHEMISTRY, ANALYTICAL

ACS Sensors Pub Date : 2025-03-11 DOI:10.1021/acssensors.4c0336410.1021/acssensors.4c03364

Yingshu Dai, Limei Xiao, Jiayang Liao, Zhengtao Han and Nanyan Fu*,

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Abstract

Cancer is a serious global health threat, and photodynamic therapy (PDT) is an effective treatment method for cancer. This therapy works by generating a large amount of singlet oxygen (¹O₂) under the influence of oxygen and light, which induces apoptosis in tumor cells, leading to their destruction. However, the resistance of cells to apoptosis limits the development of PDT, and thus the combination of ferroptosis and apoptosis provides a new perspective for PDT. During PDT and ferroptosis, the levels of ¹O₂ and the microenvironment (viscosity) within cells often change. To address this, this study developed a novel fluorescent probe, NI–QM-OH, based on the TICT–ICT effect, capable of monitoring changes in ¹O₂ and viscosity during PDT. The probe exhibits excellent selectivity, high sensitivity, and a low LOD (0.38 μM), and has been successfully applied for bioimaging in HepG2, HeLa, and MCF-7 cells, as well as for monitoring viscosity and ¹O₂ levels in zebrafish. Most importantly, NI–QM–OH also enables the visualization of the diagnosis of fatty liver disease (both alcoholic and nonalcoholic).

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凋亡-铁下垂介导的光动力治疗中单线态氧和黏度的变化及脂肪肝视觉成像的建立

癌症是严重的全球性健康威胁，光动力疗法（PDT）是治疗癌症的有效手段。这种疗法的原理是在氧气和光的作用下产生大量的单线态氧（1O2），诱导肿瘤细胞凋亡，导致肿瘤细胞的破坏。然而，细胞对凋亡的抵抗限制了PDT的发展，因此，铁下垂与细胞凋亡的结合为PDT的研究提供了一个新的视角。在PDT和铁下垂期间，细胞内的1O2水平和微环境（粘度）经常发生变化。为了解决这个问题，本研究基于TICT-ICT效应开发了一种新型荧光探针NI-QM-OH，能够监测PDT过程中1O2和粘度的变化。该探针具有优良的选择性、高灵敏度和低LOD (0.38 μM)，已成功应用于HepG2、HeLa和MCF-7细胞的生物成像，以及监测斑马鱼的黏度和1O2水平。最重要的是，NI-QM-OH还可以可视化诊断脂肪肝（酒精性和非酒精性）。

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来源期刊

ACS Sensors Chemical Engineering-Bioengineering

CiteScore

14.50

自引率

3.40%

发文量

372

期刊介绍： ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.