A third generation PSMA-targeted agent [211At]YF2: Synthesis and in vivo evaluation

IF 3.6 4区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Nuclear medicine and biology Pub Date : 2024-05-01 DOI:10.1016/j.nucmedbio.2024.108916

Yutian Feng , Rebecca L. Meshaw , Sean W. Finch , Yongxiang Zheng , Il Minn , Ganesan Vaidyanathan , Martin G. Pomper , Michael R. Zalutsky

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Abstract

Introduction

Targeted α-particle therapy agents have shown promising responses in patients who have developed resistance to β⁻-particle emitting radionuclides, albeit off-target toxicity remains a concern. Astatine-211 emits only one α-particle per decay and may alleviate the toxicity from α-emitting daughter radionuclides. Previously, we developed the low-molecular-weight PSMA-targeted agent [²¹¹At]L3-Lu that showed suitable therapeutic efficacy and was well tolerated in mice. Although [²¹¹At]L3-Lu had good characteristics, we now have evaluated a closely related analogue, [²¹¹At]YF2, to determine the better molecule for clinical translation.

Methods

The tin precursors and unlabeled iodo standards for [²¹¹At]YF2 and [²¹¹At]L3-Lu each were synthesized and a new one-step labeling method was developed to produce [²¹¹At]YF2 and [²¹¹At]L3-Lu from the respective tin precursor. RCY and RCP were determined using RP-HPLC. Cell uptake, internalization and in vitro cell-killing (MTT) assays were performed on PSMA⁺ PC-3 PIP cells in parallel experiments to compare [²¹¹At]YF2 and [²¹¹At]L3-Lu directly. A paired-label biodistribution study was performed in athymic mice with subcutaneous PSMA-positive PC-3 PIP xenografts as a head-to-head comparison of [¹³¹I]YF2 and [¹²⁵I]L3-Lu. The tissue distribution of [²¹¹At]YF2 and [²¹¹At]L3-Lu were determined individually in the same animal model.

Results

The syntheses of tin precursors and unlabeled iodo standards were accomplished in reasonable yields. A streamlined and scalable radiolabeling method (1 h total synthesis time) was developed for the radiosynthesis of both [²¹¹At]YF2 and [²¹¹At]L3-Lu with 86 ± 7 % (n = 10) and 87 ± 5 % (n = 7) RCY, respectively, and > 95 % RCP for both. The maximum activity of [²¹¹At]YF2 produced to date was 666 MBq. An alternative method that did not involve HPLC purification was developed that provided similar RCY and RCP. Significantly higher cell uptake, internalization and cytotoxicity was seen for [²¹¹At]YF2 compared with [²¹¹At]L3-Lu. Significantly higher uptake and longer retention in tumor was seen for [¹³¹I]YF2 than for co-administered [¹²⁵I]L3-Lu, while considerably higher renal uptake was seen for [¹³¹I]YF2. The biodistribution of [²¹¹At]YF2 was consistent with that of [¹³¹I]YF2.

Conclusion

[²¹¹At]YF2 exhibited higher cellular uptake, internalization and cytotoxicity than [²¹¹At]L3-Lu on PSMA-positive PC3 PIP cells. Likewise, higher uptake and longer retention in tumor was seen for [²¹¹At]YF2. Experiments to evaluate the dosimetry and therapeutic efficacy of [²¹¹At]YF2 are under way.

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第三代 PSMA 靶向制剂 [211At]YF2：合成与体内评估

导言靶向α粒子治疗药物对β粒子放射性核素产生耐药性的患者有很好的疗效，但脱靶毒性仍然是一个令人担忧的问题。Astatine-211每次衰变只释放一个α粒子，可以减轻α发射子放射性核素的毒性。此前，我们开发了低分子量的 PSMA 靶向制剂 [211At]L3-Lu，它在小鼠体内显示出合适的疗效和良好的耐受性。方法合成了[211At]YF2和[211At]L3-Lu各自的锡前体和未标记的碘标准物，并开发了一种新的一步标记法，从各自的锡前体制备[211At]YF2和[211At]L3-Lu。采用 RP-HPLC 法测定了 RCY 和 RCP。在平行实验中，对 PSMA+ PC-3 PIP 细胞进行了细胞摄取、内化和体外细胞杀伤（MTT）检测，以直接比较 [211At]YF2 和 [211At]L3-Lu。作为[131I]YF2和[125I]L3-Lu的正面比较，在皮下注射PSMA阳性PC-3 PIP异种移植物的无胸腺小鼠中进行了成对标记生物分布研究。在同一动物模型中，分别测定了[211At]YF2和[211At]L3-Lu的组织分布。开发出了一种简化且可扩展的放射性标记方法（总合成时间为 1 小时），用于[211At]YF2 和[211At]L3-Lu 的放射性合成，RCY 分别为 86 ± 7 %（n = 10）和 87 ± 5 %（n = 7），RCP 均为 95 %。迄今为止，[211At]YF2 的最大活性为 666 MBq。我们还开发了一种不涉及 HPLC 纯化的替代方法，可提供类似的 RCY 和 RCP。与[211At]L3-Lu 相比，[211At]YF2 的细胞摄取、内化和细胞毒性明显更高。与联合给药的[125I]L3-Lu相比，[131I]YF2的摄取量明显更高，在肿瘤中的保留时间也更长，而[131I]YF2的肾摄取量要高得多。结论在 PSMA 阳性 PC3 PIP 细胞上，[211At]YF2 的细胞摄取、内化和细胞毒性均高于[211At]L3-Lu。同样，[211At]YF2 在肿瘤中的摄取量更高，保留时间更长。目前正在进行[211At]YF2的剂量测定和疗效评估实验。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nuclear medicine and biology 医学-核医学

CiteScore

6.00

自引率

9.70%

发文量

479

审稿时长

51 days

期刊介绍： Nuclear Medicine and Biology publishes original research addressing all aspects of radiopharmaceutical science: synthesis, in vitro and ex vivo studies, in vivo biodistribution by dissection or imaging, radiopharmacology, radiopharmacy, and translational clinical studies of new targeted radiotracers. The importance of the target to an unmet clinical need should be the first consideration. If the synthesis of a new radiopharmaceutical is submitted without in vitro or in vivo data, then the uniqueness of the chemistry must be emphasized. These multidisciplinary studies should validate the mechanism of localization whether the probe is based on binding to a receptor, enzyme, tumor antigen, or another well-defined target. The studies should be aimed at evaluating how the chemical and radiopharmaceutical properties affect pharmacokinetics, pharmacodynamics, or therapeutic efficacy. Ideally, the study would address the sensitivity of the probe to changes in disease or treatment, although studies validating mechanism alone are acceptable. Radiopharmacy practice, addressing the issues of preparation, automation, quality control, dispensing, and regulations applicable to qualification and administration of radiopharmaceuticals to humans, is an important aspect of the developmental process, but only if the study has a significant impact on the field. Contributions on the subject of therapeutic radiopharmaceuticals also are appropriate provided that the specificity of labeled compound localization and therapeutic effect have been addressed.