Development of a Synthetic Strategy Toward Trans-Cyclobutane-Containing Natural Products: Enantioselective Total Synthesis of (+)-Psiguadial B
<p>Trans-cyclobutane-containing meroterpenoids are a structurally intriguing class of natural products with a diverse array of pharmacologically interesting properties. Herein, the development of a synthetic strategy for de novo construction of the trans-cyclobutane motif is described, which h...
| Summary: | <p>Trans-cyclobutane-containing meroterpenoids are a structurally intriguing class of natural products with a diverse array of pharmacologically interesting properties. Herein, the development of a synthetic strategy for de novo construction of the trans-cyclobutane motif is described, which has enabled the first enantioselective total synthesis of the cytotoxic natural product, (+)-psiguadial B. Specifically, we have developed a photochemical Wolff rearrangement with tandem catalytic, asymmetric addition to a ketene generated in situ. To our knowledge, this work represents the first example of this methodology used to prepare enantioenriched amides. A palladium-catalyzed, directed C(sp<sup>3</sup>)–H alkenylation reaction is used to quickly build molecular complexity, and two distinct epimerization strategies permit access to either enantiomer of the natural product from a single enantiomer of organocatalyst.</p>
<p>In the course of this work, three different synthetic routes toward (+)-psiguadial B were investigated and each is discussed. These studies have led to the execution of several challenging key transformations, including an ortho-quinone methide hetero–Diels–Alder cycloaddition with a cyclohexanone-derived enol ether, a vinyl sulfide-mediated Prins cyclization, and a modified Norrish–Yang cyclization. Ultimately, the successful synthetic strategy was realized by employing a ring-closing metathesis to form the strained, 7-membered terpene framework, and a late-stage benzylic oxidation/arylation strategy to complete the core of the natural product. Finally, in an effort to apply these key strategy concepts in the context of other bioactive trans-cyclobutane-containing natural products, initial results toward a concise total synthesis of (+)-rumphellaone A are presented.</p>
|
|---|