Chemoselective Construction of Polycyclic Heterocycles Containing a [6-6-5] or [7-6-5] Tricyclic Core Skeleton from a 2-Isocyanophenyl Propargylic Ester.

Abstract

Functionalized isocyanide chemistry represents an important research area in organic synthesis. A structurally unique 2-isocyanophenl propargylic ester has been designed to incorporate the reactivity of isocyanide and propargylic ester. Thus, the reaction of 2-isocyanophenyl propargylic ester and 2-aminoaromatic aldimine facilitates the synthesis of a wide range of polycyclic benzo[b]indolo[3,2-h][1,6]naphthyridine derivatives. Furthermore, reacting with 2-hydroxyaromatic aldimine enables the divergent synthesis of both the aforementioned scaffolds and another structurally distinctive diazabenzo[f]naphtho[2,3,4-ij]azulenes featuring a [7-6-5] core skeleton. Experimental results and DFT calculations suggest that these transformations likely proceed via the in situ generation of a strained cyclopropen-imine species followed by [3+2] cycloaddition. Next, switchable nucleophilic attack/ring-expansion/aromatization and nucleophilic addition/ring-expansion/elimination account for the observed selectivity.