posted on 2020-08-04, 15:04authored byRémi Andres, Qian Wang, Jieping Zhu
A five-step total
synthesis of arborisidine, a caged pentacyclic
monoterpene indole alkaloid, has been accomplished in both racemic
and enantioselective manners. The synthesis features the following
three key steps: (a) a regioselective Pictet–Spengler reaction
of tryptamine with 2,3-pentanedione; (b) a chemo- and stereoselective
intramolecular oxidative cyclization; and (c) a complexity-generating
aza-Cope/Mannich cascade followed by in situ oxidation and epimerization.
A chiral pyrenylpyrrolidino-squaramide catalyzed enantioselective
Pictet–Spengler reaction between tryptamine and 2,3-pentanedione
is subsequently uncovered, allowing us to develop a five-step asymmetric
synthesis of (−)-arborisidine, an enantiomer of the natural
substance. Both (±)-19-epi-arborisidine and
(−)-19-epi-arborisidine are also synthesized,
which undergo epimerization at room temperature in the presence of
aqueous 2 N KOH to (±)-arborisidine and (−)-arborisidine,
respectively. The 19-epi-isomer is also partially
epimerized to arborisidine upon preparative TLC purification (eluent:
MeOH/CHCl3 saturated with NH3) and equilibrium
studies indicate that arborisidine is thermodynamically more stable
than its 19-epimer. In line with Kam’s biosynthesis proposal
and their purification protocol, we suspect that 19-epi-arborisidine could also be a natural product.