Synthesis and in vitro evaluation of spirobenzovesamicols as potential 11C-PET tracer alternatives to [18F]FEOBV for vesicular acetylcholine transporter (VAChT) imaging

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR EJNMMI Radiopharmacy and Chemistry Pub Date : 2025-02-02 DOI:10.1186/s41181-025-00327-w

Hugo Helbert, Winnie Deuther-Conrad, Michel de Haan, Barbara Wenzel, Gert Luurtsema, Wiktor Szymanski, Peter Brust, Rudi A. J. O. Dierckx, Ben L. Feringa, Philip H. Elsinga

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Abstract

Background

Through its central role in neurotransmission, the vesicular acetylcholine transporter (VAChT) is an increasingly valuable target for positron emission tomography (PET). VAChT ligands have been mostly derived from the vesamicol structure, but with limitations in available labelling methods and selectivity for VAChT against σ receptors being a common pitfall of such compounds, the development of selective VAChT tracers remains a challenge. Modern labelling techniques, in this case the [¹¹C]MeLi cross-coupling methodology, expands labelling opportunities, allowing to explore novel vesamicol-based structures as potential PET-tracers.

Results

A series of vesamicol derivatives was synthesized and their binding towards VAChT, σ1 and σ2 receptors assessed. Of all compound tested, (-)-2-methylspirobenzovesamicol ((-)-4) was the most promising with a 16 ± 4 nM affinity towards VAChT, a 29-fold weaker affinity for σ1 receptors and negligible binding (> 1 μM) towards σ2 receptors. The radiolabelling was performed from the corresponding bromide using a [¹¹C]MeLi cross-coupling protocol, yielding 2-[¹¹C]methylspirobenzovesamicol in 32–37% RCY. New in vitro binding data is also made available for (-)-FEOBV with human-sourced σ1 receptors, revealing a 300-fold stronger affinity for VAChT compared to σ receptors.

Conclusion

(-)-2-methylspirobenzovesamicol was identified as a potent and selective VAChT ligand, with moderate to low affinity for σ receptors, and its racemate was radiolabeled in good radiochemical yields with Carbon-11. At this stage, [¹¹C]-methyl-2-methylspirobenzovesamicol appears a promising ¹¹C-PET tracer for VAChT imaging.

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合成和体外评价螺苯唑维酰胺类药物作为11C-PET示踪剂替代[18F]FEOBV用于囊泡乙酰胆碱转运体（VAChT）成像

背景：由于其在神经传递中的核心作用，泡状乙酰胆碱转运蛋白（VAChT）越来越成为正电子发射断层扫描（PET）的重要靶点。VAChT配体大多来源于vesamicol结构，但由于可用的标记方法和VAChT对σ受体的选择性是这类化合物的常见缺陷，因此开发选择性VAChT示踪剂仍然是一个挑战。现代标记技术，在这种情况下的[11C]MeLi交叉耦合方法，扩大了标记的机会，允许探索新的vesamicol为基础的结构作为潜在的pet示踪剂。结果：合成了一系列vesamicol衍生物，并对其与VAChT、σ1和σ2受体的结合进行了评价。在所测试的化合物中，(-)-2-甲基螺苯唑维胺醇（(-)-4）对VAChT的亲和力为16±4 nM，对σ1受体的亲和力弱29倍，对σ2受体的结合（> 1 μM）可以忽略。用[11C]MeLi交叉偶联方案对相应的溴进行放射性标记，在32-37%的RCY下得到2-[11C]甲基螺苯唑维酰胺。（-）- feobv与人源σ1受体的体外结合数据表明，与σ受体相比，(-)- feobv对VAChT的亲和力强300倍。结论：(-)-2-甲基螺苯唑维氨醇是一种有效的选择性VAChT配体，对σ受体具有中等至低的亲和力，其外消旋体可以用碳-11进行放射性标记，放射化学产率较高。在这个阶段，[11C]-甲基-2-甲基螺苯唑维氨醇似乎是一种很有前途的用于VAChT成像的11C- pet示踪剂。

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