Isopeptide bonds in chemotactic tripeptides. Synthesis and activity of lysine‐containing fMLF analogs

Abstract: In order to explore the properties of chemotactic N‐formylpeptides containing isopeptide bonds within their backbones, a group of lysine‐containing analogs of the prototypical chemotactic tripeptide N‐formylmethionyl‐leucyl‐phenylalanine (fMLF) was synthesized. The new analogs were designed by adding to the HCO‐Met or Boc‐Met residue a dipeptide fragment made up of Lys and Phe residues joined through Lys N^α or N^ε bonds, in all possible combinations. Thus, the following six pairs of tripeptides were synthesized and examined for their bioactivity: RCO‐Met‐Lys(Z)‐Phe‐OMe ( 2a , b ), RCO‐Met‐Lys(Z‐Phe)‐OMe ( 3a , b ), Z‐Lys(RCO‐Met)‐Phe‐OMe ( 4a , b ), Z‐Phe‐Lys(RCO‐Met)‐OMe ( 5a , b ), RCO‐Met‐Phe‐Lys(Z)‐OMe ( 6a , b ) and Z‐Lys(RCO‐Met‐Phe)‐OMe ( 7a , b ), with R=OC(CH₃)₃ and R=H for compounds a and b , respectively. All the new models were characterized fully and their activity (chemotaxis, superoxide anion production and lysozyme release) on human neutrophils determined as agonists (compounds b ) and antagonists (compounds a ). All N‐formyl derivatives 2b ? 7b are less potent than fMLF‐OMe as chemoattractants, but compound 7b exhibits selective activity as superoxide anion producer. Derivatives 2a ? 7a do not show antagonistic activity towards fMLF induced chemotaxis and O₂^? production, however, all these compounds except 4a antagonize lysozyme release by 60%.