Beijing Institute of Brain Disorders, Laboratory of Brain Disorders, Ministry of Science and Technology, Collaborative Innovation Center for Brain Disorders, Capital Medical University, Beijing 100069, China.
School of Pharmaceutical Science, Capital Medical University, Beijing 100069, China.
Mol Pharm. 2022 Jul 4;19(7):2351-2366. doi: 10.1021/acs.molpharmaceut.2c00157. Epub 2022 Jun 7.
[C]ER176 has adequate sensitivity to image the human brain translocator protein (TSPO) in all three genotypes by positron emission tomography (PET). However, its clinical application is limited by the short half-life of C (20.38 min). To overcome the deficiency of [C]ER176 and keep the pharmacophore features of ER176 to the maximum extent, we designed four fluorine-labeled ER176 derivatives using the deuterium method. In vitro competition binding confirmed that the designed compounds had high affinity for TSPO. Biodistribution experiments showed that tissues with high expression of TSPO had high uptake of these compounds, as well as that the compound showed high brain penetration and mild defluorination in vivo. Therefore, [F]BIBD-239 with simple synthesis conditions was selected for further biological evaluation. Theoretical simulations showed that BIBD-239 and ER176 have similar binding modes and sites to Ala147-TSPO and Thr147-TSPO, which indicated that the tracers may have consistent sensitivity to the three affinity genotypes. In vitro autoradiography and in vivo PET studies of the ischemic rat brain showed dramatically higher uptake of [F]BIBD-239 on the lesion site compared to the contralateral side with good brain kinetics. Additionally, [F]BIBD-239 provided clear tumor PET images in a GL261 glioma model. Importantly, PET imaging and liquid chromatography-high-resolution mass spectrometry (LC-HRMS) results showed that in vivo defluorination and other metabolites of [F]BIBD-239 did not interfere with brain imaging. Conclusively, [F]BIBD-239, similar to ER176 with low polymorphism sensitivity, has simple labeling conditions, high labeling yield, high affinity, and high specificity for TSPO, and it is planned for further evaluation in higher species.
[C]ER176 具有足够的灵敏度,可通过正电子发射断层扫描(PET)对所有三种基因型的人脑中的转移蛋白(TSPO)进行成像。然而,由于 C 的半衰期较短(20.38 分钟),其临床应用受到限制。为了克服 [C]ER176 的不足,并最大程度地保留 ER176 的药效团特征,我们使用氘代方法设计了四个氟标记的 ER176 衍生物。体外竞争结合实验证实,设计的化合物对 TSPO 具有高亲和力。生物分布实验表明,高表达 TSPO 的组织对这些化合物具有高摄取率,并且该化合物在体内具有较高的脑穿透率和轻度脱氟作用。因此,选择具有简单合成条件的 [F]BIBD-239 进行进一步的生物学评估。理论模拟表明,BIBD-239 和 ER176 与 Ala147-TSPO 和 Thr147-TSPO 具有相似的结合模式和结合位点,这表明示踪剂可能对三种亲和力基因型具有一致的敏感性。在缺血性大鼠脑的体外放射自显影和体内 PET 研究中,与对侧相比,[F]BIBD-239 在病变部位的摄取显著增加,具有良好的脑动力学。此外,[F]BIBD-239 在 GL261 胶质细胞瘤模型中提供了清晰的肿瘤 PET 图像。重要的是,PET 成像和液相色谱-高分辨率质谱(LC-HRMS)结果表明,[F]BIBD-239 的体内脱氟及其它代谢物不会干扰脑成像。总之,[F]BIBD-239 与 ER176 一样,对多态性的敏感性低,具有简单的标记条件、高标记产率、对 TSPO 的高亲和力和高特异性,计划在更高的物种中进一步评估。
