甘聚糖靶向单克隆抗体用于胃肠道肿瘤双峰近红外荧光和光声成像的临床前评价。

IF 3.1 3区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

EJNMMI Research Pub Date : 2025-06-06 DOI:10.1186/s13550-025-01258-y

Ruben D Houvast, Vincent Q Sier, Maurice van Duijvenvoorde, Victor M Baart, Timo Schomann, JiaXin Chua, Mireille Vankemmelbeke, Lindy G Durrant, Daniëlle Krijgsman, Pieter de Heer, Gert-Jan Hassing, J Sven D Mieog, A Stijn L P Crobach, Jacobus Burggraaf, Peter J K Kuppen, Alexander L Vahrmeijer

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引用次数: 0

摘要

背景：近红外荧光（NIRF）成像辅助外科医生术中实现1厘米深度的恶性组织根治性切除，并可辅以光声成像增加视野深度。肿瘤相关碳水化合物抗原是肿瘤成像的有希望的靶标，具有比蛋白质靶向的潜在优势。本研究在临床前评估了抗多糖示踪剂CH88.2-800CW（抗lea /c/x）和CH129-800CW（抗sdi- lea）在胃肠道肿瘤NIRF/PA双峰成像中的作用。结果：免疫组化发现Lea/c/x和sdi-Lea在胃癌和结直肠癌组织中高表达，在健康周围组织中表达有限，但在健康结直肠癌上皮中Lea/c/x表达较强。使用CH88.2-800CW和CH129-800CW对皮下和原位HT-29_luc2（结肠癌）和BxPC-3_luc2（胰腺癌）荷瘤小鼠进行双峰式NIRF/PA成像，使用利妥昔单抗- 800cw作为阴性对照示踪剂。注射后96 h，使用临床Artemis NIRF成像仪对所有原位肿瘤进行描绘，HT-29_luc2模型的平均CH88.2-800CW和ch128 - 800cw肿瘤与背景的比值分别为4.8±1.4和4.9±0.5，BxPC-3_luc2模型的平均CH88.2-800CW和ch128 - 800cw分别为2.5±0.3和2.9±0.4。在CH88.2-800CW和CH129-800CW的所有肿瘤中都观察到类似的特异性光声信号。生物分布分析显示，在包括肝脏和肾脏在内的健康器官中，肿瘤荧光高，信号低。结论：采用CH88.2-800CW和CH129-800CW双峰NIRF/PA成像有助于实时、高对比度的胃肠道肿瘤显示。鉴于它们强烈且主要是肿瘤特异性表达，这两种示踪剂有望成为胃肠道癌症的有效显像剂，并且是进一步临床评估的引人注目的候选者。

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Preclinical evaluation of glycan-targeting monoclonal antibodies for bimodal near-infrared fluorescence and photoacoustic imaging of gastrointestinal cancers.

Background: Near-infrared fluorescence (NIRF) imaging assists surgeons intraoperatively to achieve radical resection of malignant tissue with one centimeter depth and can be supplemented with photoacoustic imaging to increase depth-of-view. Tumor-associated carbohydrate antigens are promising targets for tumor imaging with potential advantages over protein targeting. This study preclinically evaluates the anti-glycan tracers CH88.2-800CW (anti-Le^a/c/x) and CH129-800CW (anti-sdi-Le^a) for bimodal NIRF/PA imaging of gastrointestinal cancers.

Results: Using immunohistochemistry, we found that Le^a/c/x and sdi-Le^a were highly expressed in gastric and colorectal cancer tissue, with limited expression in healthy surrounding tissue, except for strong Le^a/c/x expression in healthy colorectal epithelium. Bimodal NIRF/PA imaging using CH88.2-800CW and CH129-800CW was performed on subcutaneous and orthotopic HT-29_luc2 (colon cancer) and BxPC-3_luc2 (pancreatic cancer) tumor-bearing mice, using rituximab-800CW as a negative control tracer. At 96 h post-injection, all orthotopic tumors were delineated using the clinical Artemis NIRF imager with mean CH88.2-800CW and CH129-800CW tumor-to-background ratios of 4.8 ± 1.4 and 4.9 ± 0.5 for the HT-29_luc2 model, and 2.5 ± 0.3 and 2.9 ± 0.4 for the BxPC-3_luc2 model, respectively. Similarly specific photoacoustic signal was observed within all tumors for both CH88.2-800CW and CH129-800CW. Biodistribution analyses showed high tumor fluorescence with minimal signal in healthy organs, including the liver and kidneys.

Conclusions: Bimodal NIRF/PA imaging employing CH88.2-800CW and CH129-800CW facilitates real-time, high-contrast gastrointestinal tumor visualization. Given their strong and mostly tumor-specific expression, both tracers hold promise as effective imaging agents for gastrointestinal cancers, and are compelling candidates for further clinical evaluation.

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来源期刊

EJNMMI Research RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING&nb-

CiteScore

5.90

自引率

3.10%

发文量

审稿时长

13 weeks

期刊介绍： EJNMMI Research publishes new basic, translational and clinical research in the field of nuclear medicine and molecular imaging. Regular features include original research articles, rapid communication of preliminary data on innovative research, interesting case reports, editorials, and letters to the editor. Educational articles on basic sciences, fundamental aspects and controversy related to pre-clinical and clinical research or ethical aspects of research are also welcome. Timely reviews provide updates on current applications, issues in imaging research and translational aspects of nuclear medicine and molecular imaging technologies. The main emphasis is placed on the development of targeted imaging with radiopharmaceuticals within the broader context of molecular probes to enhance understanding and characterisation of the complex biological processes underlying disease and to develop, test and guide new treatment modalities, including radionuclide therapy.