Taxol (paclitaxel), the most well-known taxane diterpenoid, is the best-selling natural-source anticancer drug ever produced and one of the most common prescriptions in the treatment of breast, lung, and ovarian cancers, saving countless lives around the world. Structurally, Taxol possesses a highly oxygenated [6−8−6−4] core bearing 11 stereocenters, seven of which are contiguous chiral centers. Moreover, the extremely strained bicyclo[5.3.1] undecane ring system with a bridgehead double bond is a unique structural feature. All these features make Taxol a highly challenging synthetic target. Tremendous synthetic efforts from more than 60 research groups around the world have already culminated in ten total syntheses and three formal syntheses, as well as more than 60 synthetic model studies of Taxol. This review is intended to provide a long-overdue appraisal of the great achievements in the total syntheses of Taxol reported in the last few decades. In doing so, we summarize the development of synthesis toward Taxol from 1994 to 2022, including the evolution of synthetic strategy for accessing this complex molecular scaffold and key lessons learned from such endeavors. Finally, we briefly discuss the future of the research in this area.
The first total synthesis of (±)- and (−)-daphnillonin
B, a daphnicyclidin-type alkaloid with a new [7-6-5-7-5-5] A/B/C/D/E/F
hexacyclic core, has been achieved. The [6-5-7] B/C/D ring system
was efficiently and diastereoselectively constructed via a mild
type I intramolecular [5+2] cycloaddition, followed by a Grubbs
II catalyst-catalyzed radical cyclization. The [5-5] fused E/F ring
system was synthesized via a diastereoselective intramolecular
Pauson–Khand reaction. Notably, the synthetically challenging
[7-6-5-7-5-5] hexacyclic core was reassembled by a unique Wagner–Meerwein-type
rearrangement from the [6-6-5-7-5-5] hexacyclic framework found
in calyciphylline A-type Daphniphyllum alkaloids.
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