Radiosynthesis and evaluation of novel 18F labeled PET ligands for imaging monoacylglycerol lipase

IF 5.9 2区医学 Q1 CHEMISTRY, MEDICINAL European Journal of Medicinal Chemistry Pub Date : 2025-01-04 DOI:10.1016/j.ejmech.2025.117246

Yinlong Li , Wakana Mori , Ahmad Chaudhary , Chunyu Zhao , Tomoteru Yamasaki , Zachary Zhang , Siyan Feng , Tim Ware , Jian Rong , Masayuki Fujinaga , Jiahui Chen , Katsushi Kumata , Yiding Zhang , Kuan Hu , Lin Xie , Xin Zhou , Zhendong Song , Yabiao Gao , Zhenkun Sun , Jimmy S. Patel , Steven H. Liang

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Abstract

Monoacylglycerol lipase (MAGL) is a 33 kDa cytosolic serine hydrolase that is widely distributed in the central nervous system and peripheral tissues. MAGL hydrolyzes monoacylglycerols into fatty acids and glycerol, playing a crucial role in endocannabinoid degradation. Inhibition of MAGL in the brain elevates levels of 2-arachidonoylglycerol and leads to decreased pro-inflammatory prostaglandin and thromboxane production. As such, MAGL is considered a potential target for treating neuropsychiatric disorders, metabolic syndromes, and cancer. Based on a novel spirocyclic system, we synthesized two fluorinated carbamate scaffolds as reversible MAGL inhibitors (epimers: (R)-6, IC₅₀ = 18.6 nM and (S)-6, IC₅₀ = 1.6 nM). In vitro autoradiography studies of [¹⁸F](R)-6 (codenamed [¹⁸F]MAGL-2304) and [¹⁸F](S)-6 (codenamed [¹⁸F]MAGL-2305) demonstrated heterogeneous distribution and specific binding affinity to MAGL-rich brain regions. Autoradiography with MAGL knockout mouse brain tissues confirmed the binding specificity of [¹⁸F](S)-6. Dynamic PET imaging studies revealed that [¹⁸F](S)-6 exhibited limited brain uptake and homogenous distribution in rat brains. In vivo P-gp inhibition enhanced [¹⁸F](S)-6 uptake in the brain, suggesting that [¹⁸F](S)-6 constitutes a P-gp efflux substrate. This research could provide new directions in the design of MAGL PET ligands that are based on spirocyclic scaffolds.

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用于成像单酰基甘油脂肪酶的新型18F标记PET配体的放射合成和评价

单酰基甘油脂肪酶（MAGL）是一种33 kDa的细胞质丝氨酸水解酶，广泛分布于中枢神经系统和外周组织。MAGL将单酰基甘油水解成脂肪酸和甘油，在内源性大麻素降解中起着至关重要的作用。脑内MAGL的抑制可提高2-花生四烯醇甘油的水平，并导致促炎前列腺素和凝血素的产生减少。因此，MAGL被认为是治疗神经精神疾病、代谢综合征和癌症的潜在靶点。基于新的螺旋环体系，我们合成了两种氟化氨基甲酸酯支架作为可逆MAGL抑制剂(外显子：（R)-6, IC50 = 18.6 nM和(S)-6, IC50 = 1.6 nM）。[18F](R)-6（代号为[18F]MAGL-2304）和[18F](S)-6（代号为[18F]MAGL-2305）的体外放射自显像研究显示，它们分布不均匀，并且与富含magl的脑区具有特异性结合亲和力。用MAGL敲除小鼠脑组织进行放射自显影证实了[18F](S)-6的结合特异性。动态PET成像研究显示[18F](S)-6在大鼠脑内摄取有限，分布均匀。体内P-gp抑制增强了[18F](S)-6在大脑中的摄取，表明[18F](S)-6构成P-gp外排底物。本研究为基于螺旋环支架的MAGL PET配体的设计提供了新的方向。

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来源期刊

European Journal of Medicinal Chemistry 化学-医药化学

CiteScore

11.70

自引率

9.00%

发文量

863

审稿时长

29 days

期刊介绍： The European Journal of Medicinal Chemistry is a global journal that publishes studies on all aspects of medicinal chemistry. It provides a medium for publication of original papers and also welcomes critical review papers. A typical paper would report on the organic synthesis, characterization and pharmacological evaluation of compounds. Other topics of interest are drug design, QSAR, molecular modeling, drug-receptor interactions, molecular aspects of drug metabolism, prodrug synthesis and drug targeting. The journal expects manuscripts to present the rational for a study, provide insight into the design of compounds or understanding of mechanism, or clarify the targets.