Quaternary α,α-2-Oxoazepane α-Amino Acids: Synthesis from Ornithine-Derived β-Lactams and Incorporation into Model Dipeptides

Abstract

To explore further the chemistry of amino acid-derived β-lactams, their conversion to α,α-heterocyclic quaternary amino acid derivatives is investigated. The latter derivatives, containing 2-oxoazepane as the α,α-substituent, are synthesized by a simple Pd-C-catalyzed hydrogenolysis of Orn(Z)-derived 2-azetidinones. The rearrangement from four- to seven-membered lactam ring is driven by the key intramolecular opening of the 1-Boc-β-lactam, initiated by 7-exotrig ring closure from the NH(2) of the Orn side chain. The synthetic route is applied to the stereoselective preparation of enantiomerically pure 4-amino-3-methyl-2-oxoazepane-4-carboxylate derivatives, for which the structure and configuration is confirmed by X-ray diffraction. Molecular modeling and NMR experiments indicate that these quaternary amino acids are able to drive the adoption of β-turn secondary structures when incorporated in model dipeptide derivatives.