Trans-cyclooctene—a Swiss army knife for bioorthogonal chemistry: exploring the synthesis, reactivity, and applications in biomedical breakthroughs

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Karuna Adhikari, Maarten Vanermen, Gustavo Da Silva, Tim Van den Wyngaert, Koen Augustyns, Filipe Elvas
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引用次数: 0

Abstract

Background

Trans-cyclooctenes (TCOs) are highly strained alkenes with remarkable reactivity towards tetrazines (Tzs) in inverse electron-demand Diels–Alder reactions. Since their discovery as bioorthogonal reaction partners, novel TCO derivatives have been developed to improve their reactivity, stability, and hydrophilicity, thus expanding their utility in diverse applications.

Main body

TCOs have garnered significant interest for their applications in biomedical settings. In chemical biology, TCOs serve as tools for bioconjugation, enabling the precise labeling and manipulation of biomolecules. Moreover, their role in nuclear medicine is substantial, with TCOs employed in the radiolabeling of peptides and other biomolecules. This has led to their utilization in pretargeted nuclear imaging and therapy, where they function as both bioorthogonal tags and radiotracers, facilitating targeted disease diagnosis and treatment. Beyond these applications, TCOs have been used in targeted cancer therapy through a "click-to-release" approach, in which they act as key components to selectively deliver therapeutic agents to cancer cells, thereby enhancing treatment efficacy while minimizing off-target effects. However, the search for a suitable TCO scaffold with an appropriate balance between stability and reactivity remains a challenge.

Conclusions

This review paper provides a comprehensive overview of the current state of knowledge regarding the synthesis of TCOs, and its challenges, and their development throughout the years. We describe their wide ranging applications as radiolabeled prosthetic groups for radiolabeling, as bioorthogonal tags for pretargeted imaging and therapy, and targeted drug delivery, with the aim of showcasing the versatility and potential of TCOs as valuable tools in advancing biomedical research and applications.

反式环辛烯--生物正交化学的瑞士军刀:探索生物医学突破中的合成、反应和应用。
背景:反式环辛烯(TCO)是一种高度紧张的烯烃,在反电子需求的 Diels-Alder 反应中与四嗪(Tzs)具有显著的反应活性。自发现它们作为生物对等反应伙伴以来,人们开发了新型 TCO 衍生物来提高它们的反应活性、稳定性和亲水性,从而扩大了它们在各种应用中的效用:TCO 因其在生物医学领域的应用而备受关注。在化学生物学中,TCOs 可作为生物连接的工具,实现对生物分子的精确标记和操作。此外,它们在核医学中也发挥着重要作用,TCO 可用于肽和其他生物大分子的放射性标记。因此,TCOs 被用于预靶向核成像和治疗,在这些应用中,TCOs 既是生物正交标签,又是放射性痕量物质,有助于进行靶向疾病诊断和治疗。除了这些应用之外,TCOs 还通过 "点击释放 "的方法被用于癌症靶向治疗,在这种方法中,TCOs 可作为选择性地向癌细胞释放治疗药物的关键成分,从而提高治疗效果,同时最大限度地减少脱靶效应。然而,寻找一种在稳定性和反应性之间达到适当平衡的合适 TCO 支架仍然是一项挑战:本综述论文全面概述了有关 TCOs 合成及其挑战的知识现状,以及这些年来 TCOs 的发展情况。我们介绍了 TCOs 作为放射性标记的修复基团、作为生物正交标签用于预靶向成像和治疗以及靶向药物递送的广泛应用,旨在展示 TCOs 作为有价值的工具在推进生物医学研究和应用方面的多功能性和潜力。
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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