Design of a Fibroblast Activation Protein-Targeted Radiopharmaceutical Therapy with High Tumor-to-Healthy-Tissue Ratios.

Ramesh Mukkamala, Daniel J Carlson, Nicholas Kaine Miller, Spencer D Lindeman, Emily Renee Bowen, Pooja Tudi, Taylor Schleinkofer, Owen C Booth, Abigail Cox, Madduri Srinivasarao, Philip S Low
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Abstract

Because of upregulated expression on cancer-associated fibroblasts, fibroblast activation protein (FAP) has emerged as an attractive biomarker for the imaging and therapy of solid tumors. Although many FAP ligands have already been developed for radiopharmaceutical therapies (RPTs), most suffer from inadequate tumor uptake, insufficient tumor residence times, or off-target accumulation in healthy tissues, suggesting a need for further improvements. Methods: A new FAP-targeted RPT with a novel ligand (FAP8-PEG3-IP-DOTA) was designed by combining the desirable features of several previous ligand-targeted RPTs. Uptake and retention of [111In]In or [177Lu]Lu-FAP8-PEG3-IP-DOTA were assessed in KB, HT29, MDA-MB-231, and 4T1 murine tumor models by radioimaging or ex vivo biodistribution analyses. Radiotherapeutic potencies and gross toxicities were also investigated by monitoring tumor growth, body weight, and tissue damage in tumor-bearing mice. Results: FAP8-PEG3-IP-DOTA exhibited high affinity (half-maximal inhibitory concentration, 1.6 nM) and good selectivity for FAP relative to its closest homologs, prolyl oligopeptidase (half-maximal inhibitory concentration, ∼14.0 nM) and dipeptidyl peptidase-IV (half-maximal inhibitory concentration, ∼860 nM). SPECT/CT scans exhibited high retention in 2 different solid tumor models and minimal uptake in healthy tissues. Quantitative biodistribution analyses revealed tumor-to-healthy-tissue ratios of more than 5 times for all major organs, and live animal studies demonstrated 65%-93% suppression of tumor growth in all 4 models tested, with minimal or no evidence of systemic toxicity. Conclusion: We conclude that [177Lu]Lu-FAP8-PEG3-IP-DOTA constitutes a promising and safe RPT candidate for FAPα-targeted radionuclide therapy of solid tumors.

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设计肿瘤与健康组织比率高的成纤维细胞活化蛋白靶向放射性药物疗法
由于成纤维细胞活化蛋白(FAP)在癌症相关成纤维细胞中的表达上调,它已成为实体瘤成像和治疗中一种极具吸引力的生物标记物。虽然已经开发出许多用于放射性药物治疗(RPT)的 FAP 配体,但大多数配体都存在肿瘤摄取不足、肿瘤停留时间不够或在健康组织中的脱靶累积等问题,这表明需要进一步改进。方法:结合之前几种配体靶向 RPT 的理想特性,设计了一种带有新型配体(FAP8-PEG3-IP-DOTA)的新型 FAP 靶向 RPT。通过放射成像或体内外生物分布分析,评估了[111In]In 或[177Lu]Lu-FAP8-PEG3-IP-DOTA 在 KB、HT29、MDA-MB-231 和 4T1 小鼠肿瘤模型中的摄取和保留情况。此外,还通过监测肿瘤小鼠的肿瘤生长、体重和组织损伤,研究了放射治疗效力和总体毒性。研究结果FAP8-PEG3-IP-DOTA 对 FAP 具有高亲和力(半数最大抑制浓度为 1.6 nM),相对于其最接近的同源物--脯氨酰寡肽酶(半数最大抑制浓度为 14.0 nM)和二肽基肽酶-IV(半数最大抑制浓度为 860 nM)--具有良好的选择性。SPECT/CT 扫描显示,该药物在 2 种不同的实体肿瘤模型中的保留率很高,而在健康组织中的摄取量极低。定量生物分布分析表明,在所有主要器官中,肿瘤与健康组织之比均超过 5 倍,活体动物实验表明,在所有 4 种受试模型中,肿瘤生长抑制率为 65%-93% ,全身毒性极小或没有。结论我们得出结论:[177Lu]Lu-FAP8-PEG3-IP-DOTA 是一种很有前景且安全的 RPT 候选药物,可用于 FAPα 靶向放射性核素治疗实体瘤。
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