Application of 2D EXSY and qNMR Spectroscopy for Diastereomeric Excess Determination Following Chiral Resolution of ß-Lactams.

Trans-ß-lactam isomers have garnered much attention as anti-cancer microtubule targeting agents. Currently available synthetic methods are available for the preparation of enantiopure ß-lactams and favour isomeric cis/trans ß-lactam mixtures. Indirect chiral resolution offers the opportunity for isolation of exclusively enantiopure trans-ß-lactams. In this study, liquid chromatography chiral resolution of ß-lactams derivatized as diastereomer mixtures with a panel of N-protected amino acids is explored, where N-(Boc)-L-proline served as the optimal chiral derivatising reagent. High-performance liquid chromatography failed to adequately determine diastereomeric excess (de) of resolved diastereomers. Variable temperature, 1 H NMR and 2D EXSY spectroscopic analyses of proline-derivatised diastereomers were successfully employed to characterise equilibrating rotamers of resolved diastereomers and determine their de. Integration of resolved resonances corresponding to H3 and H4 of the ß-lactam ring served as a quantitative qNMR tool for the calculation of de following resolution.