Department of Nuclear Medicine, Renji Hospital, School of Medicine, Shanghai Jiao Tong University, 1630 Dongfang Rd, Shanghai, 200127, China.
Departments of Radiology and Medical Physics, University of Wisconsin - Madison, Room 7137, 1111 Highland Avenue, Madison, WI, 53705-2275, USA.
Eur J Nucl Med Mol Imaging. 2020 Nov;47(12):2765-2775. doi: 10.1007/s00259-020-04784-0. Epub 2020 Apr 11.
Intercellular adhesion molecule-1 (ICAM-1, CD54) is an emerging therapeutic target for a variety of solid tumors including melanoma and anaplastic thyroid cancer (ATC). This study aims to develop an ICAM-1-targeted immuno-positron emission tomography (immunoPET) imaging strategy and assess its diagnostic value in melanoma and ATC models.
Flow cytometry was used to screen ICAM-1-positive melanoma and ATC cell lines. Melanoma and ATC models were established using A375 cell line and THJ-16T cell line, respectively. An ICAM-1-specific monoclonal antibody (R6-5-D6) and a nonspecific human IgG were radiolabeled with Cu and the diagnostic efficacies were interrogated in tumor-bearing mouse models. Biodistribution and fluorescent imaging studies were performed to confirm the specificity of the ICAM-1-targeted imaging probes.
ICAM-1 was strongly expressed on melanoma and advanced thyroid cancer cell lines. Cu-NOTA-ICAM-1 immunoPET imaging efficiently delineated A375 melanomas with a peak tumor uptake of 21.28 ± 6.56 %ID/g (n = 5), significantly higher than that of Cu-NOTA-IgG (10.63 ± 2.58 %ID/g, n = 3). Moreover, immunoPET imaging with Cu-NOTA-ICAM-1 efficiently visualized subcutaneous and orthotopic ATCs with high clarity and contrast. Fluorescent imaging with IRDye 800CW-ICAM-1 also visualized orthotopic ATCs and the tumor uptake could be blocked by the ICAM-1 parental antibody R6-5-D6, indicating the high specificity of the developed probe. Finally, blocking with the human IgG prolonged the circulation of the Cu-NOTA-ICAM-1 in R2G2 mice without compromising the tumor uptake.
ICAM-1-targeted immunoPET imaging could characterize ICAM-1 expression in melanoma and ATC, which holds promise for optimizing ICAM-1-targeted therapies in the future.
细胞间黏附分子-1(ICAM-1,CD54)是多种实体瘤(包括黑色素瘤和间变性甲状腺癌(ATC))的新兴治疗靶点。本研究旨在开发一种针对 ICAM-1 的免疫正电子发射断层扫描(immunoPET)成像策略,并评估其在黑色素瘤和 ATC 模型中的诊断价值。
使用流式细胞术筛选出 ICAM-1 阳性的黑色素瘤和 ATC 细胞系。使用 A375 细胞系和 THJ-16T 细胞系分别建立黑色素瘤和 ATC 模型。用 Cu 标记 ICAM-1 特异性单克隆抗体(R6-5-D6)和非特异性人 IgG,并在荷瘤小鼠模型中检测其诊断效能。进行生物分布和荧光成像研究以确认靶向成像探针的特异性。
ICAM-1 在黑色素瘤和晚期甲状腺癌细胞系上表达较强。Cu-NOTA-ICAM-1 immunoPET 成像有效地描绘了 A375 黑色素瘤,肿瘤摄取峰值为 21.28±6.56%ID/g(n=5),明显高于 Cu-NOTA-IgG(10.63±2.58%ID/g,n=3)。此外,Cu-NOTA-ICAM-1 immunoPET 成像能够清晰有效地可视化皮下和原位 ATC。IRDye 800CW-ICAM-1 荧光成像也能可视化原位 ATC,并且肿瘤摄取可被 ICAM-1 亲本抗体 R6-5-D6 阻断,表明所开发探针具有很高的特异性。最后,用人 IgG 阻断可延长 R2G2 小鼠中 Cu-NOTA-ICAM-1 的循环时间,而不影响肿瘤摄取。
ICAM-1 靶向 immunoPET 成像可对黑色素瘤和 ATC 中的 ICAM-1 表达进行特征分析,这为未来优化 ICAM-1 靶向治疗提供了希望。