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A novel monoacylglycerol lipase-targeted 18F-labeled probe for positron emission tomography imaging of brown adipose tissue in the energy network

  
@article{APS10720,
	author = {Ran Cheng and Masayuki Fujinaga and Jing Yang and Jian Rong and Ahmed Haider and Daisuke Ogasawara and Richard S. Van and Tuo Shao and Zhen Chen and Xiaofei Zhang and Erick R. Calderon Leon and Yiding Zhang and Wakana Mori and Katsushi Kumata and Tomoteru Yamasaki and Lin Xie and Shaofa Sun and Lu Wang and Chongzhao Ran and Yihan Shao and Benjamin Cravatt and Lee Josephson and Ming-Rong Zhang and Steven H. Liang},
	title = {A novel monoacylglycerol lipase-targeted 18F-labeled probe for positron emission tomography imaging of brown adipose tissue in the energy network},
	journal = {Acta Pharmacologica Sinica},
	volume = {43},
	number = {11},
	year = {2022},
	keywords = {},
	abstract = {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 [18F]FEPAD. Pharmacokinetics and binding studies on [18F]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 [18F]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.},
	issn = {1745-7254},	url = {http://www.chinaphar.com/article/view/10720}
}