TY - JOUR
T1 - Total synthesis of the pentacyclic diterpenoid tropone hainanolidol
AU - Frey, Barbara
AU - Wells, Adam P.
AU - Roden, Frances
AU - Au, Ty Duong
AU - Hockless, David C.
AU - Willis, Anthony C.
AU - Mander, Lewis N.
PY - 2000
Y1 - 2000
N2 - The total synthesis of the unusual diterpenoid tropone, hainanolidol (1), discovered in the bark of the yew species, Cephalotaxus hainanensis, has been completed in 26 steps from 3,5-dimethylanisole. The intramolecular cyclopropanation reaction of the aryl ring in (30) by means of the rhodium mandelate-catalysed reaction of the diazoacetyl function was used to assemble the 5/7 ring system of (31), at the same time elaborating a cycloheptatriene moiety that could be transformed subsequently to the tropone functionality in the target molecule. While removing the acetal protecting group from (31) an unexpected Mukaiyama-type aldol process was induced by ZnBr2, affording (32), the structure of which was determined by X-ray analysis. With greater care, the aldehyde (33) could be obtained and the desired carbocyclic ring system completed by means of a base-catalysed aldol reaction with the newly formed hydroxyl being employed subsequently in the formation of the δ-lactone function in (35). Desilylation, reduction of the C-10 carbonyl function and brief exposure to acid finally afforded (1). This last step took advantage of the stability of the tropylium ion (40) to provide a 'thermodynamic sink' for the reaction outcome. The synthesis of (1) also constitutes a formal synthesis of the troponoid ether, harringtonolide (2), since this compound had been obtained previously from (1) by means of a transannular oxidation process. Methodology for the assembly of the tropone moiety in (1) and (2) was modelled on the simpler bi- and tricyclic systems, (13) and (22), respectively.
AB - The total synthesis of the unusual diterpenoid tropone, hainanolidol (1), discovered in the bark of the yew species, Cephalotaxus hainanensis, has been completed in 26 steps from 3,5-dimethylanisole. The intramolecular cyclopropanation reaction of the aryl ring in (30) by means of the rhodium mandelate-catalysed reaction of the diazoacetyl function was used to assemble the 5/7 ring system of (31), at the same time elaborating a cycloheptatriene moiety that could be transformed subsequently to the tropone functionality in the target molecule. While removing the acetal protecting group from (31) an unexpected Mukaiyama-type aldol process was induced by ZnBr2, affording (32), the structure of which was determined by X-ray analysis. With greater care, the aldehyde (33) could be obtained and the desired carbocyclic ring system completed by means of a base-catalysed aldol reaction with the newly formed hydroxyl being employed subsequently in the formation of the δ-lactone function in (35). Desilylation, reduction of the C-10 carbonyl function and brief exposure to acid finally afforded (1). This last step took advantage of the stability of the tropylium ion (40) to provide a 'thermodynamic sink' for the reaction outcome. The synthesis of (1) also constitutes a formal synthesis of the troponoid ether, harringtonolide (2), since this compound had been obtained previously from (1) by means of a transannular oxidation process. Methodology for the assembly of the tropone moiety in (1) and (2) was modelled on the simpler bi- and tricyclic systems, (13) and (22), respectively.
KW - Diterpenoids
KW - Hainanolidol
KW - Harringtonolide
KW - Tropones
KW - Yew bark
UR - http://www.scopus.com/inward/record.url?scp=0034447175&partnerID=8YFLogxK
U2 - 10.1071/CH00124
DO - 10.1071/CH00124
M3 - Article
SN - 0004-9425
VL - 53
SP - 819
EP - 830
JO - Australian Journal of Chemistry
JF - Australian Journal of Chemistry
IS - 10
ER -