Abstract
Synthetic protocols for site-selective palladium-catalyzed C-H arylation and azetidination of pentacyclic triterpenoids have been developed. Betulin, oleanolic, and ursolic acids were converted into primary amines C(28)-NH(2) that were further transformed into the corresponding picolinamides. The latter was found to be a suitable directing group for triterpenoid C-(sp (3))-H (het)-arylation with iodo-(het)-arenes in the presence of Pd-(OAc)(2)/CuBr(2)/CsOAc system. C-(sp (3))-H (het)-arylation provided yields from 29 to 83%, and the C(22)/C(16) selectivity from 9:1 in the lupane (betulin) series to 19:1 in the oleane and ursane series. The highest isolated yields of C-(sp (3))-H arylated products were achieved with iodoarenes bearing electron-donating groups, but the use of electron-deficient iodoarenes gave a significant proportion of N-picolinoyl azetidine side product. The latter were obtained with good selectivity as major products when 1-iodo-4-nitrobenzene was used as an additive. C-(sp (3))-H arylation revealed C(22)-selectivity in all tested triterpenoid series; however, the azetidination occurred at C(22) in lupane (betulin) series and at C(16) in oleane series. C-(sp (3))-H (het)-arylation and azetidination is a new entry in the derivatization of natural triterpenoids and can be regarded as a useful tool for further exploration in terms of medicinal chemistry.