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Insertion of Isocyanides into N-Si Bonds: Multicomponent Reactions with Azines Leading to Potent Antiparasitic Compounds.

Kranti G KishoreOuldouz GhashghaeiCarolina EstarellasM Mar MestreCristina MonturiolNicola KiellandJohn M KellyAmanda Fortes FranciscoShiromani JayawardhanaDiego Muñoz-TorreroBelén PérezFrancisco Javier LuqueRocío Gámez-MontañoRodolfo Lavilla
Published in: Angewandte Chemie (International ed. in English) (2016)
Trimethylsilyl chloride is an efficient activating agent for azines in isocyanide-based reactions, which then proceed through a key insertion of the isocyanide into a N-Si bond. The reaction is initiated by N activation of the azine, followed by nucleophilic attack of an isocyanide in a Reissert-type process. Finally, a second equivalent of the same or a different isocyanide inserts into the N-Si bond leading to the final adduct. The use of distinct nucleophiles leads to a variety of α-substituted dihydroazines after a selective cascade process. Based on computational studies, a mechanistic hypothesis for the course of these reactions was proposed. The resulting products exhibit significant activity against Trypanosoma brucei and T. cruzi, featuring favorable drug-like properties and safety profiles.
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