Protease-activated receptor-2 (PAR-2): Structure-function study of receptor activation by diverse peptides related to tethered-ligand epitopes

Protease-activated receptor-a (PAR-S) is a tethered-ligand, G-protein-coupl ed receptor that is activated by proteolytic cleavage or by small peptides derived from its cleaved N-terminal sequence, such as SLIGRL-NH2. To assess specific PAR activity, we developed an immortalized murine PAR-1 (-/-) cel l line transfected with either human PAR-8 or PAR-1. A "directed" library o f more than 100 PAR agonist peptide analogues was synthesized and evaluated for PAR-8 and PAR-1 activity to establish an in-depth structure-function p rofile for specific action on PAR-S. The most potent agonist peptides (EC50 = 2-4 muM) had Lys at position 6, Ala at position 4, and pFPhe at position 2; however, these also exhibited potent PAR-1 activity (EC50 = 0.05-0.35 m uM). We identified SLIARK-NH2 and SL-Cha-ARL-NH2 as relatively potent, high ly selective PAR-2 agonists with EC50 values of 4 muM. Position 1 did not t olerate basic, acidic, or large hydrophobic amino acids. N-Terminal capping by acetyl eliminated PAR-2 activity, although removal of the amino group r educed potency by just 4-fold. At position 2, substitution of Leu by Cha or Phe gave equivalent PAR-2 potency, but this modification also activated PA R-1, whereas Ala, Asp, Lys, or Gln abolished PAR-2 activity; at position 3, Re and Cha were optimal, although various amino acids were tolerated; at p osition 4, Ala or Cha increased PAR-2 potency 2-fold, although Cha introduc ed PAR-1 activity; at position 5, Arg or Lys could be replaced successfully by large hydrophobic amino acids. These results with hexapeptide C-termina l amides that mimic the native PAR-2 ligand indicate structural modes for o btaining optimal PAR-2 activity, which could be useful for the design of PA R-2 antagonists. (C) 2001 Academic Press.