Enantioselective Synthesis of Azatricycles via Post-Ugi Cyclizations

We report a new method to create enantioenriched azatricycles using chiral α-amino acids in a two-step process after an Ugi reaction. Amino acids are great building blocks for making pure chiral molecules. Using chiral natural molecules in multicomponent reactions (MCRs) helps increase their variety by adding new chiral centers. The Ugi reaction, discovered by Ivar Karl Ugi in 1959, is a versatile MCR that helps create complex molecular structures and natural products through additional transformations called post-Ugi modifications. Designing these modifications requires selecting the right amine, acid, aldehyde/ketone, and isocyanide. Amino acids, with their primary amine and carboxylic acid groups and a pre-existing chiral center, are ideal for making diverse and selective post-Ugi modifications. Our method uses ipso-cyclization and aza-Michael cyclization with hypervalent iodine to create various azaspirotricyclic structures with high stereocontrol. This approach works well with different substrates and shows promise for further development in drug discovery.