一种具有组装/聚集诱导保留效应的近红外荧光探针，可用于乳腺癌转移的特异性诊断和图像引导手术

IF 10.7 1区生物学 Q1 BIOPHYSICS

Biosensors and Bioelectronics Pub Date : 2024-09-25 DOI:10.1016/j.bios.2024.116801

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引用次数: 0

摘要

图像引导手术对于实现肿瘤完全切除、减少术后复发和提高患者生存率至关重要。然而，目前临床上使用的近红外荧光探针（如吲哚菁绿（ICG））面临两大局限：1）缺乏主动肿瘤靶向性；2）在肿瘤中的停留时间短，限制了手术中的实时成像。为了解决这些问题，我们开发了一种能够在肿瘤病灶内原位形成纳米纤维的近红外荧光探针。这种探针主动靶向乳腺癌细胞上过度表达的整合素αvβ3受体，并在肿瘤部位表现出组装/聚集诱导的滞留效应，大大延长了成像时间窗。此外，我们还发现该探针的荧光强度可在受体诱导下增强。由于 1FCG-FFGRGD 具有出色的肿瘤特异性和灵敏度，它不仅能识别原发性乳腺癌，还能精确定位较小的淋巴结转移灶，并检测到毫米以下的腹膜转移灶。总之，这种近红外探针利用组装/聚集诱导的保留效应，在各种生物医学应用中具有巨大的潜力。

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A near-infrared fluorescent probe with assembly/aggregation-induced retention effect for specific diagnosis of metastasis and image-guided surgery in breast cancer

Image-guided surgery is crucial for achieving complete tumor resection, reducing postoperative recurrence and improving patient survival. However, current clinical near-infrared fluorescent probes, such as indocyanine green (ICG), face two main limitations: 1) lack of active tumor targeting, and 2) short retention time in tumors, which restricts real-time imaging during surgery. To address these issues, we developed a near-infrared fluorescent probe capable of in situ nanofiber formation within tumor lesions. This probe actively targets the integrin α_vβ₃ receptors overexpressed on breast cancer cells and exhibits assembly/aggregation-induced retention effects at the tumor site, significantly extending the imaging time window. Additionally, we found that the probe's fluorescence intensity can be enhanced under receptor induction. Due to its excellent tumor specificity and sensitivity, 1FCG-FFGRGD not only identifies primary breast cancer but also precisely locates smaller lymph node metastases and detects sub-millimeter peritoneal metastases. In summary, this near-infrared probe, leveraging assembly/aggregation-induced retention effects, holds substantial potential for various biomedical applications.

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来源期刊

Biosensors and Bioelectronics 工程技术-电化学

CiteScore

20.80

自引率

7.10%

发文量

1006

审稿时长

29 days

期刊介绍： Biosensors & Bioelectronics, along with its open access companion journal Biosensors & Bioelectronics: X, is the leading international publication in the field of biosensors and bioelectronics. It covers research, design, development, and application of biosensors, which are analytical devices incorporating biological materials with physicochemical transducers. These devices, including sensors, DNA chips, electronic noses, and lab-on-a-chip, produce digital signals proportional to specific analytes. Examples include immunosensors and enzyme-based biosensors, applied in various fields such as medicine, environmental monitoring, and food industry. The journal also focuses on molecular and supramolecular structures for enhancing device performance.