[225Ac]Ac-PSMA-617 production method: development of an efficient and reproducible radiolabelling process for establish a clinical routine production

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR

EJNMMI Radiopharmacy and Chemistry Pub Date : 2025-05-04 DOI:10.1186/s41181-025-00344-9

Michela Aurilio, Aureliana Esposito, Monica Buonanno, Anna Morisco, Costantina Maisto, Stefania Scala, Secondo Lastoria

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引用次数: 0

Abstract

Background

Targeted Alpha Therapy shows very promising clinical results in a cancer treatment and it should be comparable or better than chemotherapy and β-radionuclide therapy, in terms of efficacy and toxicity. The use of α-emission offers advantages over β-emission due to the high linear energy transfer and the limited range in tissue. Actinium-225 is an α-emitter with a half-life of 9.92 days, which is an appropriate half-life for convenient treatment. Actinium-225 is introduced to tumor-targeting vectors through its complexation by a chelating moiety. On this basis, the aim of this study is to develop an [²²⁵Ac]Ac-PSMA 617 production method, to assess the efficiency and reliability of the radiosynthesis as a support for establish a clinical routine production for metastatic castration resistant prostate cancer treatment.

Results

different radiolabeling conditions and different reaction times have been used and compared. The best radiochemical yields (> 95%) were obtained when the peptide was dissolved in water and it was used at quantity of 100 µg in gentisic buffer, without stabilizing agent. The reaction was conducted at 97 °C and no significant change in labeling yield was observed when the time reaction increased. This condition ensures an adequate stability at 24 h around 90%.

Conclusions

the radiolabeling method employed in our experiments has demonstrated consistent reproducibility, enabling us to produce a radiopharmaceutical that meets pharmaceutical-grade standards. Greater difficulties occurred in defining the optimal procedures for quality controls, due to the unique physical properties of actinium. Efforts were made to standardize the quality control methods in accordance with pharmacopoeia standards; however, the methods’ feasibility is still uncertain.

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[225Ac]Ac-PSMA-617生产方法：建立临床常规生产的高效可重复放射性标签工艺

靶向α治疗在癌症治疗中显示出非常有希望的临床结果，在疗效和毒性方面应该与化疗和β-放射性核素治疗相当或更好。由于α-发射具有较高的线性能量传递和有限的组织范围，因此α-发射比β-发射具有优势。锕-225是α-发射体，其半衰期为9.92天，为方便处理提供了合适的半衰期。锕-225通过螯合部分的络合作用引入肿瘤靶向载体。在此基础上，本研究的目的是开发一种[225Ac]Ac-PSMA 617的生产方法，以评估放射合成的效率和可靠性，为建立转移性去势抵抗性前列腺癌治疗的临床常规生产提供支持。结果对不同的放射性标记条件和不同的反应时间进行了比较。当肽溶解于水中，在不含稳定剂的情况下，以100µg的量在生物缓冲液中使用时，获得了最佳的放射化学产率（95%）。反应在97℃下进行，随着反应时间的增加，标记收率没有明显变化。这种条件确保了24小时90%左右的稳定性。结论：我们实验中使用的放射性标记方法具有一致的可重复性，使我们能够生产符合制药级标准的放射性药物。由于锕独特的物理性质，在确定质量控制的最佳程序时遇到了更大的困难。努力按照药典标准规范质量控制方法；然而，这些方法的可行性仍不确定。

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