Astatine-211 radiolabelling chemistry: from basics to advanced biological applications

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Maarten Vanermen, Mathilde Ligeour, Maria-Cristina Oliveira, Jean-François Gestin, Filipe Elvas, Laurent Navarro, François Guérard
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引用次数: 0

Abstract

Background

211At-radiopharmaceuticals are currently the subject of growing studies for targeted alpha therapy of cancers, which leads to the widening of the scope of the targeting vectors, from small molecules to peptides and proteins. This has prompted, during the past decade, to a renewed interest in developing novel 211At-labelling approaches and novel prosthetic groups to address the diverse scenarios and to reach improved efficiency and robustness of procedures as well as an appropriate in vivo stability of the label.

Main body

Translated from the well-known (radio)iodine chemistry, the long preferred electrophilic astatodemetallation using trialkylaryltin precursors is now complemented by new approaches using electrophilic or nucleophilic At. Alternatives to the astatoaryl moiety have been proposed to improve labelling stability, and the range of prosthetic groups available to label proteins has expanded.

Conclusion

In this report, we cover the evolution of radiolabelling chemistry, from the initial strategies developed in the late 1970’s to the most recent findings.

砹-211 放射性标记化学:从基础知识到高级生物应用。
背景:目前,211At 放射药物是癌症α靶向治疗研究的热点,这导致靶向载体的范围不断扩大,从小分子到多肽和蛋白质。这促使人们在过去十年中重新关注开发新型 211At 标记方法和新型修复基团,以应对各种不同的情况,并提高程序的效率和稳健性,以及标记在体内的适当稳定性:从著名的(放射性)碘化学转化而来,使用三烷基芳基锡前体的亲电天冬氨甲基化长期以来一直是首选方法,现在又有了使用亲电或亲核 At 的新方法作为补充。为了提高标记的稳定性,人们提出了砹芳基的替代物,可用于标记蛋白质的人工基团的范围也有所扩大:在本报告中,我们介绍了放射性标记化学的演变,从 20 世纪 70 年代末开发的最初策略到最新的研究成果。
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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