内源性大麻素水解产生促进神经炎症的脑前列腺素。
Endocannabinoid hydrolysis generates brain prostaglandins that promote neuroinflammation.
机构信息
The Skaggs Institute for Chemical Biology and Department of Chemical Physiology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA.
出版信息
Science. 2011 Nov 11;334(6057):809-13. doi: 10.1126/science.1209200. Epub 2011 Oct 20.
Abstract
Phospholipase A(2)(PLA(2)) enzymes are considered the primary source of arachidonic acid for cyclooxygenase (COX)-mediated biosynthesis of prostaglandins. Here, we show that a distinct pathway exists in brain, where monoacylglycerol lipase (MAGL) hydrolyzes the endocannabinoid 2-arachidonoylglycerol to generate a major arachidonate precursor pool for neuroinflammatory prostaglandins. MAGL-disrupted animals show neuroprotection in a parkinsonian mouse model. These animals are spared the hemorrhaging caused by COX inhibitors in the gut, where prostaglandins are instead regulated by cytosolic PLA(2). These findings identify MAGL as a distinct metabolic node that couples endocannabinoid to prostaglandin signaling networks in the nervous system and suggest that inhibition of this enzyme may be a new and potentially safer way to suppress the proinflammatory cascades that underlie neurodegenerative disorders.
摘要
磷脂酶 A(2)(PLA(2)) 被认为是环氧化酶 (COX) 介导的前列腺素生物合成中花生四烯酸的主要来源。在这里,我们表明在大脑中存在一条独特的途径,其中单酰基甘油脂肪酶 (MAGL) 水解内源性大麻素 2-花生四烯酰甘油,生成用于神经炎症性前列腺素的主要花生四烯酸前体池。MAGL 缺失的动物在帕金森病小鼠模型中表现出神经保护作用。这些动物免受 COX 抑制剂在肠道中引起的出血,而前列腺素在肠道中则由胞质 PLA(2) 调节。这些发现确定 MAGL 是一个独特的代谢节点,它将内源性大麻素与神经系统中的前列腺素信号网络联系起来,并表明抑制这种酶可能是一种新的、潜在更安全的方法,可以抑制导致神经退行性疾病的炎症级联反应。
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