用于磷酸二酯酶10A体内可视化的碳-11和氟-18标记示踪剂的合成及生物学评价
Synthesis and biological evaluation of carbon-11 and fluorine-18 labeled tracers for in vivo visualization of PDE10A.
作者信息
Ooms Maarten, Celen Sofie, Koole Michel, Langlois Xavier, Schmidt Mark, De Angelis Meri, Andrés José Ignacio, Verbruggen Alfons, Van Laere Koen, Bormans Guy
机构信息
Laboratory for Radiopharmacy, KU Leuven, Belgium; MoSAIC, Molecular Small Animal Imaging Centre, KU Leuven, Belgium.
Department of Nuclear Medicine & Molecular Imaging, University Medical Center Groningen, The Netherlands.
出版信息
Nucl Med Biol. 2014 Sep;41(8):695-704. doi: 10.1016/j.nucmedbio.2014.05.138. Epub 2014 May 24.
INTRODUCTION
In vivo visualization of PDE10A using PET provides a tool to evaluate the role of PDE10A in various neuropsychiatric diseases and can also be useful in the clinical evaluation of PDE10A inhibitor drug candidates. We evaluated several carbon-11 and fluorine-18 labeled PDE10A inhibitors as potential PDE10A PET radioligands.
MATERIALS & METHODS: [(11)C]MP10, [(11)C]JNJ42071965 and four other tracers were developed. Their biodistribution was evaluated in rats. Rat plasma and brain radiometabolites were quantified. Baseline microPET imaging was performed in normal rats and PDE10A knockout (KO) and wild-type (WT) mice. Blocking and displacement studies were conducted. The selectivity of the tracer binding was further studied in an ex vivo autoradiography experiment in PDE10A KO and WT mice.
RESULTS
Biodistribution showed brain uptake for all tracers in the striatum and wash-out from the cerebellum. [(11)C]1 ((11)C-MP10) had the highest specific uptake index (striatum (S) vs. cerebellum (C) ratios (S/C)-1) at 60 min (7.4). [(11)C]5 ([(11)C]JNJ42071965) had a high index at the early time points (1.0 and 3.7 at 2 and 30 min p.i., respectively). The affinity of [(11)C]4, [(18)F]3 and [(18)F]6 was too low to visualize PDE10A using microPET. [(11)C] 2 showed a specific binding, while kinetics of [(11)C]1 were too slow. [(11)C]5 reached equilibrium after 10 min (uptake index=1.2). Blocking and displacement experiments in rats and baseline imaging in PDE10A KO mice showed specific and reversible binding of [(11)C]5 to PDE10A.
CONCLUSIONS
We successfully radiolabeled and evaluated six radiotracers for their potential to visualize PDE10A in vivo. While [(11)C]1 had the highest striatal specific uptake index, its slow kinetics likely compromise clinical use of this tracer. [(11)C]5 has a relatively high striatum-to-background ratio and fast kinetic profile, which makes it a valuable carbon-11 alternative.
引言
使用正电子发射断层扫描(PET)对磷酸二酯酶10A(PDE10A)进行体内可视化,为评估PDE10A在各种神经精神疾病中的作用提供了一种工具,并且在PDE10A抑制剂候选药物的临床评估中也可能有用。我们评估了几种碳-11和氟-18标记的PDE10A抑制剂作为潜在的PDE10A PET放射性配体。
材料与方法
研发了[(11)C]MP10、[(11)C]JNJ42071965以及其他四种示踪剂。在大鼠中评估了它们的生物分布。对大鼠血浆和脑放射性代谢物进行了定量分析。在正常大鼠以及PDE10A基因敲除(KO)和野生型(WT)小鼠中进行了基线微型PET成像。进行了阻断和置换研究。在PDE10A KO和WT小鼠的离体放射自显影实验中进一步研究了示踪剂结合的选择性。
结果
生物分布显示所有示踪剂在纹状体中有脑摄取,在小脑中则清除。[(11)C]1((11)C-MP10)在60分钟时具有最高的特异性摄取指数(纹状体(S)与小脑(C)的比值(S/C)-1)(7.4)。[(11)C]5([(11)C]JNJ42071965)在早期时间点具有较高的指数(注射后2分钟和30分钟时分别为1.0和3.7)。[(11)C]4、[(18)F]3和[(18)F]6的亲和力过低,无法使用微型PET可视化PDE10A。[(11)C]2显示出特异性结合,而[(11)C]1的动力学过于缓慢。[(11)C]5在10分钟后达到平衡(摄取指数 = 1.2)。在大鼠中的阻断和置换实验以及PDE10A KO小鼠中的基线成像显示[(11)C]5与PDE10A有特异性且可逆的结合。
结论
我们成功地对六种放射性示踪剂进行了放射性标记,并评估了它们在体内可视化PDE10A的潜力。虽然[(11)C]1具有最高的纹状体特异性摄取指数,但其缓慢的动力学可能会影响该示踪剂的临床应用。[(11)C]5具有相对较高的纹状体与背景比值以及快速的动力学特征,这使其成为一种有价值的碳-11替代物。
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