Fully automated radiolabeling of [68Ga]Ga-EMP100 targeting c-MET for PET-CT clinical imaging

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Timofei Rusu, Matthieu Delion, Charlotte Pirot, Amaury Blin, Anita Rodenas, Jean-Noël Talbot, Nicolas Veran, Christophe Portal, Françoise Montravers, Jacques Cadranel, Aurélie Prignon
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引用次数: 0

Abstract

Background

c-MET is a transmembrane receptor involved in many biological processes and contributes to cell proliferation and migration during cancer invasion process. Its expression is measured by immunehistochemistry on tissue biopsy in clinic, although this technique has its limitations. PET-CT could allow in vivo mapping of lesions expressing c-MET, providing whole-body detection. A number of radiopharmaceuticals are under development for this purpose but are not yet in routine clinical use. EMP100 is a cyclic oligopeptide bound to a DOTA chelator, with nanomolar affinity for c-MET. The aim of this project was to develop an automated method for radiolabelling the radiopharmaceutical [68Ga]Ga-EMP100.

Results

The main results showed an optimal pH range between 3.25 and 3.75 for the complexation reaction and a stabilisation of the temperature at 90 °C, resulting in an almost complete incorporation of gallium-68 after 10 min of heating. In these experiments, 90 µg of EMP-100 peptide were initially used and then lower amounts (30, 50, 75 µg) were explored to determine the minimum required for sufficient synthesis yield. Radiolysis impurities were identified by radio-HPLC and ascorbic acid and ethanol were used to improve the purity of the compound. Three batches of [68Ga]Ga-EMP100 were then prepared according to the optimised parameters and all met the established specifications. Finally, the stability of [68Ga]Ga-EMP100 was assessed at room temperature over 3 h with satisfactory results in terms of appearance, pH, radiochemical purity and sterility.

Conclusions

For the automated synthesis of [68Ga]Ga-EMP100, the parameters of pH, temperature, precursor peptide content and the use of adjuvants for impurity management were efficiently optimised, resulting in the production of three compliant and stable batches according to the principles of good manufacturing practice. [68Ga]Ga-EMP100 was successfully synthesised and is now available for clinical development in PET-CT imaging.

Abstract Image

Abstract Image

Abstract Image

靶向c-MET的[68Ga]Ga-EMP100的全自动放射性标记用于PET-CT临床成像。
背景:c-MET是一种跨膜受体,参与多种生物学过程,在癌症侵袭过程中参与细胞增殖和迁移。它的表达是通过免疫组织化学在临床组织活检中测量的,尽管这种技术有其局限性。PET-CT可以在体内定位表达c-MET的病变,提供全身检测。许多放射性药物正在为此目的进行开发,但尚未在常规临床使用中。EMP100是一种与DOTA螯合剂结合的环状寡肽,对c-MET具有纳摩尔亲和力。该项目的目的是开发一种放射性药物[68Ga]Ga-EMP100的自动放射性标记方法。结果:主要结果显示,络合反应的最佳pH范围为3.25至3.75,温度稳定在90°C,加热10分钟后,镓-68几乎完全掺入。在这些实验中,最初使用90µg的EMP-100肽,然后探索较低的量(30、50、75µg),以确定足够合成产率所需的最小值。通过放射高效液相色谱法鉴定了放解杂质,并使用抗坏血酸和乙醇来提高化合物的纯度。然后根据优化的参数制备三批[68Ga]Ga-EMP100,所有批次均符合既定规范。最后,在室温下对[68Ga]Ga-EMP100的稳定性进行了3小时的评估,在外观、pH、放射化学纯度和无菌性方面取得了令人满意的结果。结论:对于[68Ga]Ga-EMP100的自动化合成,pH、温度、前体肽含量和杂质管理佐剂的使用等参数得到了有效优化,从而根据良好生产实践的原则生产出了三个符合要求且稳定的批次。[68Ga]Ga-EMP100已成功合成,目前可用于PET-CT成像的临床开发。
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
CiteScore
7.20
自引率
8.70%
发文量
30
审稿时长
5 weeks
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