Approaches to the synthesis of arisugacin A

Abstract

Approaches to the synthesis of the important acetylcholinesterase inhibitor, arisugacin A, are described. Two different routes to the key AB ring system are described: the first utilizes an intramolecular Diels-Alder reaction on a furan substrate and the second a 6 pi-electrocyclization of a substituted triene followed by cycloaddition with singlet oxygen. The successful synthesis of a fully functionalized AB ring system of arisugacin A, the tetraol 52 from hydroxy-beta-ionone 22 in 16 steps and 9.3% overall yield is described. Several useful synthetic transformations to this molecule and its analogues are reported, e.g., the formation of the furan Diels-Alder cycloadduct 14 and its conversion into the oxa-bridged structures 17 and 21, the preparation of the dienes 25 and 26 and the conversion of the later into the endop eroxide 30 and its diol 36, the preparation of the endoperoxide 40 and the oxa-bridged system 42, and finally the use of the enelactone 43 and its ultimately successful conversion into 52. In addition, several novel rearrangements are described, producing the unusual compounds 62, 65, 14 and 67. Finally, the successful coupling of the pyrone unit to the AB ring system is described to give compounds 70 and 71. The novel reduction of these compounds to the cyclic ether 74 is described. (C) 2007 Elsevier Ltd. All rights reserved.