697266-08-3Relevant academic research and scientific papers
Asymmetric Synthesis of Atorvastatin Calcium through Intramolecular Oxidative Oxygen-Nucleophilic Bromocyclization
Wu, Yan,Liu, Min-Jie,Huang, Hai-Qing,Huang, Guan-Xin,Xiong, Fang-Jun,Chen, Fen-Er
, p. 3681 - 3688 (2017)
The stereocontrolled synthesis of atorvastatin calcium starting from commercially available d-aspartic acid using an intramolecular oxidative oxygen-nucleophilic bromocyclization of a homoallylic tert-butyl carbonate is described. This strategy allows the formation of the chiral syn-1,3-diol moiety with the desired stereochemistry, and provides a functionalized bromomethyl group for the construction of the atorvastatin side-chain with high regio- and diastereoselectivity. This route is attractive as it represents an efficient and environmentally sensitive approach to the large-scale synthesis of statins and their analogues.
A novel strategy towards the atorvastatin lactone
Sawant, Pramod,Maier, Martin E.
experimental part, p. 9738 - 9744 (2011/02/25)
We describe a novel strategy to the atorvastatin lactone based on a Paal-Knorr synthesis of pyrrole 24 by condensing diketone 23 with primary amine 22. The latter contains the syn-1,3-diol subunit and a benzyl ether function at the other end of the chain. This allowed for manipulations on the pyrrole ring via iodination at C2, metalation with t-BuLi and carboxylation. The obtained acid 26 could be converted via amide formation, debenzylation, oxidation and lactonization to atorvastatin lactone 6. The key building block, 2-((4R,6S)-6-(2-(benzyloxy)ethyl)-2,2-dimethyl-1,3-dioxan-4-yl)ethanamine (22) was obtained by two sequential asymmetric transfer hydrogenative carbonyl allylations according to Krische.
