开发基于 Caspase-3 选择性活性的探针,用于 PET 细胞凋亡成像。

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2024-08-08 DOI:10.1186/s41181-024-00291-x
Louis Lauwerys, Lucas Beroske, Angelo Solania, Christel Vangestel, Alan Miranda, Nele Van Giel, Karuna Adhikari, Anne-Marie Lambeir, Leonie wyffels, Dennis Wolan, Pieter Van der Veken, Filipe Elvas
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引用次数: 0

摘要

背景:半胱氨酸-天冬氨酸蛋白酶 Caspase-3 被认为是细胞在特定外在和内在刺激下凋亡的主要执行者。Caspase-3是评估治疗反应的一种有趣的生物标志物,因为许多癌症疗法都是通过诱导肿瘤细胞死亡来发挥疗效的。以前开发的 Caspase-3 PET 示踪剂由于肿瘤摄取率低或缺乏靶点选择性而无法进入常规临床应用,而这正是对癌症患者进行有效治疗反应评估的两个重要条件。因此,本研究的目标是开发和临床前评估用于凋亡成像的新型基于活性的caspase-3选择性探针(ABPs):结果:开发了一个用于肿瘤凋亡检测的 Caspase-3 选择性 ABPs 库。首次尝试在抑制剂 Ac-DW3-KE (Ac-3Pal-Asp-βhLeu-Phe-Asp-KE)的 N 端进行 18F 标记,生成的放射性示踪剂无法充分检测体内细胞凋亡的增加。无法有效检测体内活性 caspase-3 的原因可能是结合速度慢,体外抑制动力学也证明了这一点。因此,我们开发了基于 Ac-ATS010-KE (Ac-3Pal-Asp-Phe(F5)-Phe-Asp-KE)的第二代树突酶-3 选择性 ABPs,其结合动力学大大优于 Ac-DW3-KE。我们基于 Ac-ATS010-KE 的探针是通过用 6 种不同的连接体修饰 N 端而制成的。在健康小鼠体内,所有连接体修饰对结合动力学、靶点选择性和药代动力学特征的影响都很有限。在体外细胞凋亡模型中,与对照组相比,亲水性最小的示踪剂[18F]MICA-316在凋亡细胞中的摄取量有所增加。最后,[18F]MICA-316 在体内结直肠癌模型中进行了测试,结果显示肿瘤摄取量有限,而且无法区分治疗组和未治疗组,尽管在体外该放射性示踪剂能够与复杂混合物中的 caspase-3 结合。相比之下,与磷脂酰乙醇胺(PE)结合的放射性示踪剂[99m锝]锝-杜拉霉素能够识别疾病模型中增加的细胞死亡,使其成为迄今为止开发的性能最好的治疗反应评估示踪剂:总之,我们开发出了一种新型的与caspase-3结合的PET示踪剂库,其结合动力学与原始抑制剂相似。最有前景的示踪剂[18F]MICA-316在体外细胞凋亡模型中显示出摄取增加,并能选择性地与凋亡肿瘤细胞中的caspase-3结合。为了区分对治疗有反应的肿瘤和无反应的肿瘤,将开发具有更高肿瘤蓄积性和体内稳定性的下一代 Caspase-3 选择性 ABPs。
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Development of caspase-3-selective activity-based probes for PET imaging of apoptosis

Background

The cysteine-aspartic acid protease caspase-3 is recognized as the main executioner of apoptosis in cells responding to specific extrinsic and intrinsic stimuli. Caspase-3 represents an interesting biomarker to evaluate treatment response, as many cancer therapies exert their effect by inducing tumour cell death. Previously developed caspase-3 PET tracers were unable to reach routine clinical use due to low tumour uptake or lack of target selectivity, which are two important requirements for effective treatment response evaluation in cancer patients. Therefore, the goal of this study was to develop and preclinically evaluate novel caspase-3-selective activity-based probes (ABPs) for apoptosis imaging.

Results

A library of caspase-3-selective ABPs was developed for tumour apoptosis detection. In a first attempt, the inhibitor Ac-DW3-KE (Ac-3Pal-Asp-βhLeu-Phe-Asp-KE) was 18F-labelled on the N-terminus to generate a radiotracer that was incapable of adequately detecting an increase in apoptosis in vivo. The inability to effectively detect active caspase-3 in vivo was likely attributable to slow binding, as demonstrated with in vitro inhibition kinetics. Hence, a second generation of caspase-3 selective ABPs was developed based on the Ac-ATS010-KE (Ac-3Pal-Asp-Phe(F5)-Phe-Asp-KE) with greatly improved binding kinetics over Ac-DW3-KE. Our probes based on Ac-ATS010-KE were made by modifying the N-terminus with 6 different linkers. All the linker modifications had limited effect on the binding kinetics, target selectivity, and pharmacokinetic profile in healthy mice. In an in vitro apoptosis model, the least hydrophilic tracer [18F]MICA-316 showed an increased uptake in apoptotic cells in comparison to the control group. Finally, [18F]MICA-316 was tested in an in vivo colorectal cancer model, where it showed a limited tumour uptake and was unable to discriminate treated tumours from the untreated group, despite demonstrating that the radiotracer was able to bind caspase-3 in complex mixtures in vitro. In contrast, the phosphatidylethanolamine (PE)-binding radiotracer [99mTc]Tc-duramycin was able to recognize the increased cell death in the disease model, making it the best performing treatment response assessment tracer developed thus far.

Conclusions

In conclusion, a novel library of caspase-3-binding PET tracers retaining similar binding kinetics as the original inhibitor was developed. The most promising tracer, [18F]MICA-316, showed an increase uptake in an in vitro apoptosis model and was able to selectively bind caspase-3 in apoptotic tumour cells. In order to distinguish therapy-responsive from non-responsive tumours, the next generation of caspase-3-selective ABPs will be developed with higher tumour accumulation and in vivo stability.

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CiteScore
7.20
自引率
8.70%
发文量
30
审稿时长
5 weeks
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