神经保护素D1/保护素D1及其阿司匹林触发的立体异构体的立体控制全合成。
Stereocontrolled total synthesis of neuroprotectin D1 / protectin D1 and its aspirin-triggered stereoisomer.
作者信息
Petasis Nicos A, Yang Rong, Winkler Jeremy W, Zhu Min, Uddin Jasim, Bazan Nicolas G, Serhan Charles N
机构信息
Department of Chemistry and Loker Hydrocarbon Research Institute, University of Southern California, Los Angeles, CA, 90089, USA.
出版信息
Tetrahedron Lett. 2012 Apr 4;53(14):1695-1698. doi: 10.1016/j.tetlet.2012.01.032. Epub 2012 Jan 14.
Abstract
Neuroprotectin D1 / protectin D1, a potent anti-inflammatory, proresolving, and neuroprotective lipid mediator derived biosynthetically from docosahexaenoic acid, was prepared in enantiomerically pure form via total organic synthesis. The synthetic strategy is highly stereocontrolled and convergent, featuring epoxide opening of glycidol starting materials for the introduction of the 10(R) and 17(S) hydroxyl groups. The desired alkene Z geometry was secured via the cis-reduction of alkyne precursors, while the conjugated E,E,Z triene was introduced at the end, in order to minimize Z/E isomerization. The same strategy, was also employed for the total synthesis of aspirin-triggered neuroprotectin D1 / protectin D1 having the 17(R)-stereochemistry. Synthetic compounds obtained with the reported method were matched with endogenously derived materials, and helped establish their complete stereochemistry.
摘要
神经保护素D1/保护素D1是一种由二十二碳六烯酸生物合成的具有强大抗炎、促消退和神经保护作用的脂质介质,通过全有机合成制备成对映体纯的形式。该合成策略具有高度的立体控制性和收敛性,其特点是通过缩水甘油起始原料的环氧化开环来引入10(R)和17(S)羟基。所需的烯烃Z构型通过炔烃前体的顺式还原得以确定,而共轭E,E,Z三烯在最后引入,以尽量减少Z/E异构化。同样的策略也用于具有17(R)-立体化学的阿司匹林触发的神经保护素D1/保护素D1的全合成。用所报道方法获得的合成化合物与内源性物质相匹配,并有助于确定它们完整的立体化学结构。
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