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Asymmetric Total Synthesis of (-)-Phaeocaulisin A.

Áron PéterGiacomo E M CrisenzaDavid J Procter
Published in: Journal of the American Chemical Society (2022)
The therapeutic properties of Curcuma (ginger and turmeric's family) have long been known in traditional medicine. However, only recently have guaiane-type sesquiterpenes extracted from Curcuma phaeocaulis been submitted to biological testing, and their enhanced bioactivity was highlighted. Among these compounds, phaeocaulisin A has shown remarkable anti-inflammatory and anticancer activity, which appears to be tied to the unique bridged acetal moiety embedded in its tetracyclic framework. Prompted by the promising biological profile of phaeocaulisin A and by the absence of a synthetic route for its provision, we have implemented the first enantioselective total synthesis of phaeocaulisin A in 17 steps with 2% overall yield. Our route design builds on the identification of an enantioenriched lactone intermediate, tailored with both a ketone moiety and a conjugated alkene system. Taking advantage of the umpolung carbonyl-olefin coupling reactivity enabled by the archetypal single-electron transfer (SET) reductant samarium diiodide (SmI 2 ), the lactone intermediate was submitted to two sequential SmI 2 -mediated cyclizations to stereoselectively construct the polycyclic core of the natural product. Crucially, by exploiting the innate inner-sphere nature of carbonyl reduction using SmI 2 , we have used a steric blocking strategy to render sites SET-unreceptive and thus achieve chemoselective reduction in a complex substrate. Our asymmetric route enabled elucidation of the naturally occurring isomer of phaeocaulisin A and provides a synthetic platform to access other guaiane-type sesquiterpenes from C. phaeocaulis ─as well as their synthetic derivatives─for medicinal chemistry and drug design.
Keyphrases
  • electron transfer
  • anti inflammatory
  • immune response
  • palliative care
  • photodynamic therapy
  • solid state
  • smoking cessation
  • room temperature
  • structure activity relationship