用于开发超稳定 64Cu 放射性标记生物缀合物的新大环螯合剂。

New macrobicyclic chelator for the development of ultrastable 64Cu-radiolabeled bioconjugate.

机构信息

Department of Molecular Medicine, Kyungpook National University, Daegu 700-422, South Korea.

出版信息

Bioconjug Chem. 2012 Mar 21;23(3):330-5. doi: 10.1021/bc200539t. Epub 2012 Feb 22.

DOI:10.1021/bc200539t

Abstract

Ethylene cross-bridged cyclam with two acetate pendant arms, ECB-TE2A, is known to form the most kinetically stable (64)Cu complexes. However, its usefulness as a bifunctional chelator is limited because of its harsh radiolabeling conditions. Herein, we report new cross-bridged cyclam chelator for the development of ultrastable (64)Cu-radiolabeled bioconjugates. Propylene cross-bridged TE2A (PCB-TE2A) was successfully synthesized in an efficient way. The Cu(II) complex of PCB-TE2A exhibited much higher kinetic stability than ECB-TE2A in acid decomplexation studies, and also showed high resistance to reduction-mediated demetalation. Furthermore, the quantitative radiolabeling of PCB-TE2A with (64)Cu was achieved under milder conditions compared to ECB-TE2A. Biodistribution studies strongly indicate that the (64)Cu complexes of PCB-TE2A cleared out rapidly from the body with minimum decomplexation.

摘要

具有两个乙酸酯侧臂的乙烯交联环脒，ECB-TE2A，已知可形成最动力学稳定的（64）Cu 配合物。然而，由于其苛刻的放射性标记条件，其作为双功能螯合剂的用途受到限制。在此，我们报告了一种新的交联环脒螯合剂，用于开发超稳定的（64）Cu 放射性标记的生物缀合物。丙叉交联 TE2A（PCB-TE2A）以有效的方式成功合成。在酸解络研究中，PCB-TE2A 的 Cu(II) 配合物表现出比 ECB-TE2A 更高的动力学稳定性，并且对还原介导的脱金属也表现出很高的抗性。此外，与 ECB-TE2A 相比，PCB-TE2A 可以在更温和的条件下实现定量放射性标记（64）Cu。生物分布研究强烈表明，PCB-TE2A 的（64）Cu 配合物从体内迅速清除，脱络最少。

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用于开发超稳定 64Cu 放射性标记生物缀合物的新大环螯合剂。

New macrobicyclic chelator for the development of ultrastable 64Cu-radiolabeled bioconjugate.

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