Asymmetric Total Synthesis of 4,9,10-Trihydroxyguaia-11(13)en-12,6-olide and Discovery of Its Anticancer Activity against Atypical Teratoid Rhabdoid Tumoroa mark
The guaianolide family of sesquiterpene lactones is known for its distinctive structural features and diverse biological activities. 4,9,10-Trihydroxyguaia-11(13)en-12,6-olide, with an underdetermined absolute stereochemistry (1 or ent-1), is a newly identified 6,12-guaianolide isolated from the genus Anvillea garcinii. Motivated by the potential biological activity of the natural product, we pursue its stereoselective synthesis. Starting from (R)-limonene, an asymmetric total synthesis of 4α,9α,10α-trihydroxyguaia-11(13)en-12,6α-olide (1) is accomplished in 20 steps with an overall yield of 4%, utilizing key transformations such as stereoselective reductive epoxide opening and additions of methyl lithiopropiolate and allyl cuprate. Most significantly, preliminary biological testing uncovers new anticancer activity of 1 against rare and aggressive childhood atypical teratoid rhabdoid tumor (ATRT) and other cancer cell lines. We anticipate that our synthetic strategy will enable the development of chemical probes and derivatives derived from 1 for mechanism of action studies and anticancer drug discovery.
This work was supported by Duke University. This work was partially supported by a grant of the Korea Health Technology R&D Project through the Korea Health Industry Development Institute (KHIDI), funded by the Ministry of Health & Welfare, Republic of Korea (grant number: HI19C1343 to H.J. and H.K.) and the Institute for Basic Science (IBS) in Korea (IBS-R010-A1 to J.P. and H.M.). A.R. was supported by National Science Foundation Graduate Research Fellowship DGF 2139754. A.A. and J. Heitman were supported by NIH/NIAID R01 grant AI172451-01 and R56 grant AI112595-05. J. Heitman is codirector and fellow of the CIFAR Program Fungal Kingdom: Threats & Opportunities. We are grateful to Dr. Jenny Forrester at the METRIC (North Carolina State University), which is supported by the State of North Carolina, and Dr. Chun-Hsing (Josh) Chen (University of North Carolina, Chapel Hill), which is supported by the National Science Foundation under Grant No. (CHE-2117287), for X-ray crystallography. Computations for this research were performed on the high-performance computing system operated by Research Solution Center in IBS.
