Preclinical characterization of [¹⁸F]D₂-LW223: an improved metabolically stable PET tracer for imaging the translocator protein 18 kDa (TSPO) in neuroinflammatory rodent models and non-human primates.

IF 6.9 1区医学 Q1 CHEMISTRY, MULTIDISCIPLINARY Acta Pharmacologica Sinica Pub Date : 2025-02-01 Epub Date: 2024-08-29 DOI:10.1038/s41401-024-01375-9

Kai Liao, Jia-Hui Chen, Jie Ma, Chen-Chen Dong, Chun-Yang Bi, Ya-Biao Gao, Yuan-Fang Jiang, Tao Wang, Hui-Yi Wei, Lu Hou, Jun-Qi Hu, Jun-Jie Wei, Chun-Yuan Zeng, Yin-Long Li, Sen Yan, Hao Xu, Steven H Liang, Lu Wang

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Abstract

Positron emission tomography (PET) targeting translocator protein 18 kDa (TSPO) can be used for the noninvasive detection of neuroinflammation. Improved in vivo stability of a TSPO tracer is beneficial for minimizing the potential confounding effects of radiometabolites. Deuteration represents an important strategy for improving the pharmacokinetics and stability of existing drug molecules in the plasma. This study developed a novel tracer via the deuteration of [¹⁸F]LW223 and evaluated its in vivo stability and specific binding in neuroinflammatory rodent models and nonhuman primate (NHP) brains. Compared with LW223, D₂-LW223 exhibited improved binding affinity to TSPO. Compared with [¹⁸F]LW223, [¹⁸F]D₂-LW223 has superior physicochemical properties and favorable brain kinetics, with enhanced metabolic stability and reduced defluorination. Preclinical investigations in rodent models of LPS-induced neuroinflammation and cerebral ischemia revealed specific [¹⁸F]D₂-LW223 binding to TSPO in regions affected by neuroinflammation. Two-tissue compartment model analyses provided excellent model fits and allowed the quantitative mapping of TSPO across the NHP brain. These results indicate that [¹⁸F]D₂-LW223 holds significant promise for the precise quantification of TSPO expression in neuroinflammatory pathologies of the brain.

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[18F]D2-LW223的临床前特征：一种用于神经炎症啮齿动物模型和非人灵长类动物中转运体蛋白18 kDa (TSPO)成像的改良代谢稳定PET示踪剂。

以转运体蛋白 18 kDa（TSPO）为靶标的正电子发射断层扫描（PET）可用于无创检测神经炎症。提高 TSPO 示踪剂的体内稳定性有利于最大限度地减少放射性代谢物的潜在干扰效应。氘化是改善现有药物分子在血浆中的药代动力学和稳定性的重要策略。本研究通过对[18F]LW223进行氘化开发了一种新型示踪剂，并评估了它在神经炎啮齿动物模型和非人灵长类动物（NHP）大脑中的体内稳定性和特异性结合。与 LW223 相比，D2-LW223 与 TSPO 的结合亲和力更强。与[18F]LW223相比，[18F]D2-LW223具有更优越的理化特性和更有利的脑动力学特性，并具有更高的代谢稳定性和更低的脱氟程度。在 LPS 诱导的神经炎症和脑缺血啮齿动物模型中进行的临床前研究发现，[18F]D2-LW223 与神经炎症影响区域的 TSPO 有特异性结合。双组织分区模型分析提供了极好的模型拟合，并可定量绘制整个 NHP 大脑的 TSPO 图谱。这些结果表明，[18F]D2-LW223 在精确定量 TSPO 在大脑神经炎症病变中的表达方面大有可为。

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来源期刊

Acta Pharmacologica Sinica 医学-化学综合

CiteScore

15.10

自引率

2.40%

发文量

4365

审稿时长

2 months

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