ABSTRACT
The efficient asymmetric total synthesis of (-)-oseltamivir, an antiviral reagent, has been accomplished by using two "one-pot" reaction sequences, with excellent overall yield (60 %) and only one required purification by column chromatography. The first one-pot reaction sequence consists of a diphenylprolinol silyl ether mediated asymmetric Michael reaction, a domino Michael reaction/Horner-Wadsworth-Emmons reaction combined with retro-aldol/Horner-Wadsworth-Emmons reaction and retro Michael reactions, a thiol Michael reaction, and a base-catalyzed isomerization. Six reactions can be successfully conducted in the second one-pot reaction sequence; these are deprotection of a tert-butyl ester and its conversion into an acyl chloride then an acyl azide, Curtius rearrangement, amide formation, reduction of a nitro group into an amine, and a retro Michael reaction of a thiol moiety. A column-free synthesis of (-)-oseltamivir has also been established.
Subject(s)
Antiviral Agents/chemical synthesis , Antiviral Agents/pharmacology , Neuraminidase/antagonists & inhibitors , Oseltamivir/chemical synthesis , Oseltamivir/pharmacology , Antiviral Agents/chemistry , Catalysis , Combinatorial Chemistry Techniques , Ethers/chemistry , Humans , Molecular Structure , Oseltamivir/chemistry , Proline/analogs & derivatives , Proline/chemistry , StereoisomerismABSTRACT
Taking shortcuts: A remarkably short and high-yielding asymmetric total synthesis of (-)-oseltamivir takes advantage of organocatalysis and single-pot domino operations. The target, known as the drug Tamiflu, is prepared efficiently in a short time, and also its derivatives can be synthesized effectively.