Domino carbocationic rearrangement of aryl-2-(1-N-methyl/benzyl-3-indolyl)cyclopropyl ketones: a serendipitous route to 1H-cyclopenta[c]carbazole framework.

Aryl-2-(N-methyl/benzyl-3-indolyl)cyclopropyl ketones 2a-m are shown to undergo a novel unexpected domino carbocationic rearrangement in the presence of SnCl(4)/CH(3)NO(2) yielding 2-aroyl-3-aryl-1H-cyclopenta[c]carbazoles 3a-m in good yields. The possible mechanistic pathway for this interesting transformation involves a series of cascade events, (a) electrophilic ring opening of cyclopropyl ketone, (b) intermolecular enol capture of the resulting zwitterionic intermediate, (c) electrophilic dimerization of indole moieties to give tetrahydrocarbazole intermediate and its subsequent aromatization by elimination of an indole moiety and dehydrogenation, and (d) intramolecular aldol condensation of the side chain to give a cyclopentene ring. The overall transformation involves formation of three carbon-carbon bonds along with a fused benzene and a substituted cyclopentene ring in one-pot operation from simple indole precursors.