Nmr Structural Characterization of Oligo-N-Substituted Glycine Lead Compounds from a Combinatorial Library

Synthesis and screening of combinatorial librariesfor pharmaceutical lead discovery is a rapidlyexpanding field. Oligo-N-substituted glycines (NSGs)were one of the earliest sources of moleculardiversity in combinatorial libraries. In one of thefirst demonstrations of the power of combinatorialchemistry, two NSG trimers, CHIR-2279 and CHIR-4531,were identified as nM ligands for two 7-transmembraneG-protein-coupled receptors. The NMR characterizationof these two lead compounds was undertaken to verifycovalent connectivity and to determine solutionconformations, if any. The sequential chemical shiftassignments were performed using a new strategy forassigning ¹H and ¹³C resonances of NSGs. The conformational preferences were then determined inboth an aqueous co-solvent system and an organicsolvent to probe the effects of hydrophobic collapse. NSGs are expected to be more flexible than peptidesdue to the tertiary amide, with both cis andtrans amide bond conformations being accessible. Solution NMR studies indicate that although CHIR-2279and CHIR-4531 have identical backbones and termini,and very similar side chains, they do not display thesame solution conformational characteristics.