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DOI: 10.1055/s-0032-1317854
Synthesis of (–)-Leiodermatolide
Publication History
Publication Date:
17 December 2012 (online)
Key words
(–)-leiodermatolide - alkyne metathesis - antitumor agents - structure elucidation - molybdenum
Significance
Leiodermatolide is an antimitotic macrolide isolated in 2011 from the deep-water sponge Leiodermatium sp. that exhibited potent and selective in vitro cytotoxicity against various human cancer cell lines (IC50 < 10 nm). Although the natural product was shown to induce cell cycle arrest at the G2/M transition, it had no effect on purified tubulin, indicating a novel mode of action. In addition to the promising biological activity, leiodermatolide posed an interesting target for synthetic studies, as the segregated stereoclusters within the macrolactone and the δ-lactone terminus could not be assigned unambiguously.
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Comment
In order to address this issue, a strategy was chosen, in which the δ-lactone subunit F was merged with macrocycle E at a late stage of the synthesis, granting access to either conceivable diastereomer of the target. The assembly commenced with esterification of A and B, giving diyne C, which underwent efficient cyclization using molybdenum complex D as a catalyst precursor. Suzuki–Miyaura coupling of vinyliodide E and boronate F gave intermediate G, which was advanced to leiodermatolide in four further steps, including Zn(Cu–Ag)-mediated enyne semi-reduction to the corresponding Z,Z-configured diene. Subtle differences in the 1H NMR data of the respective isomers allowed for a conclusive stereochemical assignment of the natural product.
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