Karl Schafer

D-Tyrosine as a chiral precusor to potent inhibitors of human nonpancreatic secretory phospholipase A2 (IIa) with antiinflammatory activity.

Few reported inhibitors of secretory phospholipase A2 enzymes truly inhibit the IIa human isoform (hnpsPLA2‐IIa) noncovalently at submicromolar concentrations. Herein, the simple chiral precursor D‐tyrosine was derivatised to give a series of potent new inhibitors of hnpsPLA2‐IIa. A 2.2‐Å crystal structure shows an inhibitor bound in the active site of the enzyme, chelated to a Ca2+ ion through carboxylate and amide oxygen atoms, H‐bonded through an amide NH group to His48, with multiple hydrophobic contacts and a T‐shaped aromatic‐group–His6 interaction. Antiinflammatory activity is also demonstrated for two compounds administered orally to rats.

Biological Diversity from a Structurally Diverse Library: Systematically Scanning Conformational Space Using a Pyranose Scaffold†

Success in discovering bioactive peptide mimetics is often limited by the difficulties in correctly transposing known binding elements of the active peptide onto a small and metabolically more stable scaffold while maintaining bioactivity. Here we describe a scanning approach using a library of pyranose-based peptidomimetics that is structurally diverse in a systematic manner, designed to cover all possible conformations of tripeptide motifs containing two aromatic groups and one positive charge. Structural diversity was achieved by efficient selection of various chemoforms, characterized by a choice of pyranose scaffold of defined chirality and substitution pattern. A systematic scanning library of 490 compounds was thus designed, produced, and screened in vitro for activity at the somatostatin (sst(1-5)) and melanin-concentrating hormone (MCH(1)) receptors. Bioactive compounds were found for each target, with specific chemoform preferences identified in each case, which can be used to guide follow-on drug discovery projects without the need for scaffold hopping.