Biomimetically Inspired Synthesis of Exotine A

Novel One-Step Total Synthesis of trans-Dehydroosthol and Citrubuntin

Efficient and simple syntheses of trans-dehydroosthol and citrubuntin were achieved in a single step by implementing a protecting-group-free, redox-neutral strategy that utilized readily available starting materials. In this approach, a practical one-pot (domino) Heck/dehydration reaction was carried out utilizing less reactive bromocoumarin, resulting in excellent stereoselectivity and atomic economy. Through the implementation of this new, efficient, and scalable synthesis method, the formal synthesis of a series of novel meroterpenoid natural products was successfully achieved.

Synthesis of Functionalized Hexahydrocarbazoles by Beckmann Elimination and Nucleophile-Intercepted Beckmann Fragmentation

The Beckmann elimination and nucleophile-intercepted Beckmann fragmentation (NuBFr) of oximes starting from regioisomeric indolinyl bicyclic ketones lead to products that are subjected to further synthetic manipulations and ultimately result in the stereospecific formation of densely functionalized hexahydrocarbazoles. The Pd-catalyzed Suzuki-Miyaura cross-coupling reaction of a key alkenyl bromide intermediate with various boronic acids gives arylated products.

Biomimetically Inspired, One-Step Synthesis of Exotine A and Exotine B

The one-step syntheses of exotine A and exotine B, which comprise the unusual coumarin-cyclohepta[b]indole ring system, have been achieved via the biomimetically inspired combination of indole, prenal, and either trans-dehydroosthol or gleinadiene. This facile three-component reaction delivered a mixture (17:1) of exotine A and 11'-epi-exotine A in a 43% yield from trans-dehydroosthol and a mixture (4:1) of exotine B and 11'-epi-exotine B in a 50% yield from gleinadiene. Some mechanistic aspects of this process were explored, and spectral evidence for 3,3'-spiroindolenine intermediates was obtained. Moreover, a skeletal isomer of exotine A that likely originates from a 1,2-alkyl rearrangement of a protonated 3,3'-spiroindolenine was isolated and characterized by X-ray crystallography. These findings not only provide experimental support for Jiang's proposed biosynthesis of exotine A and exotine B but also foreshadow the existence of other exotine-derived natural products having isomeric frameworks. Exploratory attempts to induce an enantioselective 3CR using a chiral phosphoric acid were unsuccessful.