Division of Nuclear Medicine and Molecular Imaging, Department of Radiology, Massachusetts General Hospital and Harvard Medical School, Boston, MA, 02114, USA.
School of Medical Imaging, Tianjin Medical University, Tianjin, 300203, China.
Acta Pharmacol Sin. 2022 Nov;43(11):3002-3010. doi: 10.1038/s41401-022-00912-8. Epub 2022 May 5.
Monoacylglycerol lipase (MAGL) constitutes a serine hydrolase that orchestrates endocannabinoid homeostasis and exerts its function by catalyzing the degradation of 2-arachidonoylglycerol (2-AG) to arachidonic acid (AA). As such, selective inhibition of MAGL represents a potential therapeutic and diagnostic approach to various pathologies including neurodegenerative disorders, metabolic diseases and cancers. Based on a unique 4-piperidinyl azetidine diamide scaffold, we developed a reversible and peripheral-specific radiofluorinated MAGL PET ligand [F]FEPAD. Pharmacokinetics and binding studies on [F]FEPAD revealed its outstanding specificity and selectivity towards MAGL in brown adipose tissue (BAT) - a tissue that is known to be metabolically active. We employed [F]FEPAD in PET studies to assess the abundancy of MAGL in BAT deposits of mice and found a remarkable degree of specific tracer binding in the BAT, which was confirmed by post-mortem tissue analysis. Given the negative regulation of endocannabinoids on the metabolic BAT activity, our study supports the concept that dysregulation of MAGL is likely linked to metabolic disorders. Further, we now provide a suitable imaging tool that allows non-invasive assessment of MAGL in BAT deposits, thereby paving the way for detailed mechanistic studies on the role of BAT in endocannabinoid system (ECS)-related pathologies.
单酰甘油脂肪酶(MAGL)是一种丝氨酸水解酶,通过催化 2-花生四烯酸甘油(2-AG)降解为花生四烯酸(AA)来协调内源性大麻素的动态平衡并发挥其功能。因此,选择性抑制 MAGL 可能成为治疗和诊断各种疾病的方法,包括神经退行性疾病、代谢疾病和癌症。基于独特的 4-哌啶基氮杂环丁烷二酰胺骨架,我们开发了一种可逆的、外周特异性放射性氟标记的 MAGL PET 配体 [F]FEPAD。[F]FEPAD 的药代动力学和结合研究表明,它在棕色脂肪组织(BAT)中对 MAGL 具有出色的特异性和选择性,而 BAT 是已知代谢活跃的组织。我们在 PET 研究中使用 [F]FEPAD 来评估小鼠 BAT 沉积物中 MAGL 的丰度,发现 BAT 中有显著程度的特异性示踪剂结合,这一结果通过死后组织分析得到了证实。鉴于内源性大麻素对代谢活跃的 BAT 活性的负调节作用,我们的研究支持了这样一种观点,即 MAGL 的失调可能与代谢紊乱有关。此外,我们现在提供了一种合适的成像工具,可用于非侵入性地评估 BAT 沉积物中的 MAGL,从而为深入研究 BAT 在与内源性大麻素系统(ECS)相关的病理中的作用奠定了基础。