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用氟-18 对生物分子进行放射性标记的无机方法,用于正电子发射断层扫描成像。

Inorganic approaches for radiolabelling biomolecules with fluorine-18 for imaging with positron emission tomography.

机构信息

King's College London, Division of Imaging Sciences, St Thomas' Hospital, 4th Floor Lambeth Wing, London, UK SE1 7EH.

出版信息

Dalton Trans. 2011 Jun 21;40(23):6196-205. doi: 10.1039/c0dt01594f. Epub 2011 Apr 15.

DOI:10.1039/c0dt01594f
PMID:21499604
Abstract

Conventional methods for radiolabelling biomolecules such as proteins and peptides with fluorine-18 for PET imaging rely on carbon-fluorine bond formation and are complex and inefficient. Several non-carbon elements form strong bonds (i.e. with high bond enthalpy) with fluorine, but with lower activation energy for their formation compared to carbon-fluorine bonds, whilst preserving a relatively high kinetic stability. In particular, by incorporating boron-, aluminium- and silicon-containing prosthetic groups into biomolecules, promising results have recently been achieved in the radiolabelling with F-18-fluoride under mild aqueous conditions, affording a level of convenience, efficiency and specific activity potentially superior to those offered by conventional C-F bond formation methods. The promise already shown by these early studies heralds a new branch of bioconjugate radiochemistry involving a wider range of "fluoridephilic" elements for synthesis of PET molecular imaging agents.

摘要

传统的将氟-18 放射性标记到蛋白质和肽等生物分子上的方法依赖于碳-氟键的形成,过程复杂且效率低下。一些非碳元素与氟形成强键(即具有高键焓),但与碳-氟键相比,其形成的活化能较低,同时保持相对较高的动力学稳定性。特别是,通过将硼、铝和硅含有的假基团掺入生物分子中,最近在温和的水相条件下用 F-18-氟化物进行放射性标记方面取得了有希望的结果,提供了一种便利性、效率和比传统 C-F 键形成方法更高的比活性。这些早期研究已经显示出的前景预示着涉及更广泛的“亲氟”元素的生物缀合放射化学的一个新分支,用于合成 PET 分子成像剂。

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