[Cu]Cu-FAP-NOX，一种带有柔性成像时间窗的 N-草酰基修饰环肽，用于 FAP PET 成像。

[Cu]Cu-FAP-NOX, a N-oxalyl modified cyclic peptide for FAP PET imaging with a flexible imaging time window.

机构信息

Department of Nuclear Medicine, The First Affiliated Hospital of Guangzhou Medical University, Guangzhou, 510120, China.

出版信息

Eur J Nucl Med Mol Imaging. 2024 Oct;51(12):3651-3661. doi: 10.1007/s00259-024-06807-6. Epub 2024 Jun 24.

DOI:10.1007/s00259-024-06807-6

PMID:38910166

Abstract

BACKGROUND

The aim of the present study was to develop a novel Cu-labeled cyclic peptide ([Cu]Cu-FAP-NOX) that targets fibroblast activation protein (FAP) and may offer advantages in terms of image contrast, imaging time window, and low uptake in normal tissues.

METHODS

The novel cyclic peptide featuring with a N-oxalyl modified tail was constructed and conjugated to NOTA for Cu labeling. Biochemical and cellular assays were performed with A549.hFAP cells. The performance of [Cu]Cu-FAP-NOX was compared to that of two established tracers ([Cu]Cu-FAPI-04 and [Ga]Ga-FAP-2286) and three different NOTA-conjugates in HEK-293T.hFAP xenograft mice using micro-PET imaging. Ex vivo biodistribution studies were performed to confirm the FAP specificity and to validate the PET data. Furthermore, a first-in-human study of this novel tracer was conducted on one patient with lung cancer.

RESULTS

Compared to [Cu]Cu-FAPI-04, [Cu]Cu-FAP-NOX demonstrated faster and higher rates of cellular uptake and internalization in A549.hFAP cells, but lower rates of cellular efflux. All six radiotracers were rapidly taken up by the tumor within the first 4 h post-injection. However, [Cu]Cu-FAP-NOX had more intense tumor accumulation and slower washout from the target. The ratios of the tumor to normal tissue (including kidneys and muscles) increased significantly over time, with [Cu]Cu-FAP-NOX reaching the highest ratio among all tracers. In the patient, [Cu]Cu-FAP-NOX PET showed a comparable result to FDG PET in the primary malignant lesion while exhibiting higher uptake in pleural metastases, consistent with elevated FAP expression as confirmed by immunohistochemistry.

CONCLUSION

[Cu]Cu-FAP-NOX is a promising FAP-targeted tracer with a highly flexible imaging time window, as evidenced by preclinical evaluation encompassing biodistribution and micro-PET studies, along with a successful patient application. Furthermore, [Cu]Cu-FAP-NOX showed enhanced image contrast and favorable pharmacokinetic properties for FAP PET imaging, warranting translation into large cohort studies.

摘要

背景

本研究旨在开发一种新型的铜标记环肽 ([Cu]Cu-FAP-NOX)，该环肽靶向成纤维细胞激活蛋白 (FAP)，在对比剂、成像时间窗和正常组织摄取方面可能具有优势。

方法

构建了具有 N-草酰基修饰尾的新型环肽，并将其与 NOTA 缀合以进行 Cu 标记。用 A549.hFAP 细胞进行生化和细胞测定。在 HEK-293T.hFAP 异种移植小鼠中，使用 micro-PET 成像比较 [Cu]Cu-FAP-NOX 与两种已建立的示踪剂 ([Cu]Cu-FAPI-04 和 [Ga]Ga-FAP-2286) 和三种不同的 NOTA 缀合物的性能。进行离体生物分布研究以确认 FAP 特异性并验证 PET 数据。此外，对一名肺癌患者进行了该新型示踪剂的首次人体研究。

结果

与 [Cu]Cu-FAPI-04 相比，[Cu]Cu-FAP-NOX 在 A549.hFAP 细胞中表现出更快和更高的细胞摄取和内化率，但细胞外排率较低。所有六种放射性示踪剂在注射后 4 小时内迅速被肿瘤摄取。然而，[Cu]Cu-FAP-NOX 具有更强的肿瘤积累和从靶标较慢的洗脱。随着时间的推移，肿瘤与正常组织（包括肾脏和肌肉）的比值显着增加，[Cu]Cu-FAP-NOX 达到所有示踪剂中最高的比值。在患者中，[Cu]Cu-FAP-NOX PET 显示与 FDG PET 在原发性恶性病变中具有相当的结果，同时在胸膜转移中表现出更高的摄取，这与免疫组织化学证实的 FAP 表达升高一致。

结论

[Cu]Cu-FAP-NOX 是一种有前途的 FAP 靶向示踪剂，具有高度灵活的成像时间窗，这一点已通过包括生物分布和 micro-PET 研究在内的临床前评估得到证实，并在成功的患者应用中得到验证。此外，[Cu]Cu-FAP-NOX 显示出增强的 FAP PET 成像图像对比度和有利的药代动力学特性，值得进行大样本队列研究。

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[Cu]Cu-FAP-NOX，一种带有柔性成像时间窗的 N-草酰基修饰环肽，用于 FAP PET 成像。

[Cu]Cu-FAP-NOX, a N-oxalyl modified cyclic peptide for FAP PET imaging with a flexible imaging time window.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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