Inspired by the biosynthesis of sesquiterpene
lactones (SLs), herein we report the asymmetric total synthesis of
the germacrane ring (24). The synthetic strategy features
a selective aldol reaction between β,γ-unsaturated chiral
sulfonylamide 15a and aldehyde 13, as well
as the intramolecular α-alkylation of sulfone 21 to construct a 10-membered carbocylic ring. The key intermediate 24 can be used to prepare the natural products costunolide
and parthenolide (PTL), which are the key precursors for transformation
into other SLs. Furthermore, the described synthetic sequences are
amenable to the total synthesis of SL analogues, such as trifluoromethylated
analogues 32 and 45. Analogues 32 and 45 maintained high activities against a series
of cancer cell lines compared to their parent PTL and costunolide,
respectively. In addition, 32 showed enhanced tolerance
to acidic media compared with PTL. To our surprise, PTL and 32 showed comparable half-lives in rat plasma and in the presence
of human liver microsomes.