99mTc-labeled FAPI compounds for cancer and inflammation: from radiochemistry to the first clinical applications

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-05-02 DOI:10.1186/s41181-024-00264-0

Alessandra Boschi, Luca Urso, Licia Uccelli, Petra Martini, Luca Filippi

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Abstract

Background

In recent years, fibroblast activating protein (FAP), a biomarker overexpressed by cancer-associated fibroblasts, has emerged as one of the most promising biomarkers in oncology. Similarly, FAP overexpression has been detected in various fibroblast-mediated inflammatory conditions such as liver cirrhosis and idiopathic pulmonary fibrosis. Along this trajectory, FAP-targeted positron emission tomography (PET), utilizing FAP inhibitors (FAPi) labeled with positron emitters, has gained traction as a powerful imaging approach in both cancer and inflammation. However, PET represents a high-cost technology, and its widespread adoption is still limited compared to the availability of gamma cameras. To address this issue, several efforts have been made to explore the potential of [^99mTc]Tc-FAPi tracers as molecular probes for imaging with gamma cameras and single photon emission computed tomography (SPECT).

Main body

Several approaches have been investigated for labeling FAPi-based compounds with ^99mTc. Specifically, the mono-oxo, tricarbonyl, isonitrile, and HYNIC strategies have been applied to produce [^99mTc]Tc-FAPi tracers, which have been tested in vitro and in animal models. Overall, these labeling approaches have demonstrated high efficiency and strong binding. The resulting [^99mTc]Tc-FAPi tracers have shown high specificity for FAP-positive cells and xenografts in both in vitro and animal model studies, respectively. However, the majority of [^99mTc]Tc-FAPi tracers have exhibited variable levels of lipophilicity, leading to preferential excretion through the hepatobiliary route and undesirable binding to lipoproteins. Consequently, efforts have been made to synthesize more hydrophilic FAPi-based compounds to improve pharmacokinetic properties and achieve a more favorable biodistribution, particularly in the abdominal region. SPECT imaging with [^99mTc]Tc-FAPi has yielded promising results in patients with gastrointestinal tumors, demonstrating comparable or superior diagnostic performance compared to other imaging modalities. Similarly, encouraging outcomes have been observed in subjects with gliomas, lung cancer, breast cancer, and cervical cancer. Beyond oncological applications, [^99mTc]Tc-FAPi-based imaging has been successfully employed in myocardial and idiopathic pulmonary fibrosis.

Conclusions

This overview focuses on the various radiochemical strategies for obtaining [^99mTc]Tc-FAPi tracers, highlighting the main challenges encountered and possible solutions when applying each distinct approach. Additionally, it covers the preclinical and initial clinical applications of [^99mTc]Tc-FAPi in cancer and inflammation.

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用于癌症和炎症的 99mTc 标记 FAPI 化合物：从放射化学到首次临床应用

背景近年来，成纤维细胞活化蛋白（FAP）作为一种由癌症相关成纤维细胞过度表达的生物标记物，已成为肿瘤学中最有前途的生物标记物之一。同样，在肝硬化和特发性肺纤维化等各种由成纤维细胞介导的炎症中也检测到了 FAP 的过表达。沿着这一轨迹，利用正电子发射体标记的 FAP 抑制剂（FAPi）进行的 FAP 靶向正电子发射断层扫描（PET）作为癌症和炎症的一种强大成像方法，已获得了广泛的关注。然而，PET 是一种高成本技术，与伽马相机相比，它的广泛应用仍然有限。为了解决这个问题，人们已经做了一些努力来探索[99mTc]Tc-FAPi示踪剂作为分子探针的潜力，以便用伽马相机和单光子发射计算机断层扫描（SPECT）进行成像。具体来说，我们采用了单氧代、三羰基、异腈和 HYNIC 等策略来生产[99mTc]Tc-FAPi 示踪剂，并在体外和动物模型中对这些示踪剂进行了测试。总体而言，这些标记方法都表现出高效率和强结合力。由此产生的[99m锝]锝-FAPi示踪剂在体外和动物模型研究中分别显示出对FAP阳性细胞和异种移植物的高度特异性。然而，大多数[99m锝]锝-FAPi示踪剂都表现出不同程度的亲脂性，导致其优先通过肝胆途径排泄，并与脂蛋白发生不良结合。因此，人们一直在努力合成亲水性更强的 FAPi 类化合物，以改善药代动力学特性，实现更有利的生物分布，尤其是在腹部区域。使用[99mTc]Tc-FAPi进行的SPECT成像在胃肠道肿瘤患者中取得了令人鼓舞的结果，与其他成像方式相比，其诊断性能相当或更优。同样，在胶质瘤、肺癌、乳腺癌和宫颈癌患者中也观察到了令人鼓舞的结果。除肿瘤应用外，基于[99m锝]锝-FAPi 的成像技术已成功应用于心肌和特发性肺纤维化。结论本综述重点介绍了获取[99m锝]锝-FAPi示踪剂的各种放射化学策略，强调了在应用每种不同方法时遇到的主要挑战和可能的解决方案。此外，它还介绍了[99m锝]锝-FAPi 在癌症和炎症中的临床前和初步临床应用。

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