Biochemical pharmacology of total retro-inverso analogues of bradykinin and angiotensin II: Molecular recognition by G-protein-coupled receptors and angiotensin converting enzyme

Total retro-inverso (TRI) analogues of bradykinin (BK), the B₂a-selective kinin antagonist d-Arg⁰Hyp₃,d-Phe⁷,Leu⁸]BK, angiotensin II (AT II) and the AT II antagonist Saralasin (Sar¹,Val⁵,Ala⁸]AT II) were prepared by conventional solid-phase synthesis. Molecular recognition of TRI peptidomimetics by G-protein-coupled receptors was studied by competitive radioligand displacement experiments. TRI analogues of d-Arg⁰Hyp³,d-Phe⁷,Leu⁸]BK specifically bound to the kidney medulla B₂a bradykinin receptor with affinities (K_d) ranging from 64 M to 4 M. Conversely, TRI analogues of BK, AT II and Saralasin did not bind to either the B_2a bradykinin receptor or the rat AT_1a AT II receptor, respectively. These studies indicate that the TRI strategy is more compatible with the synthesis of antagonists than agonists. Three TRI peptidomimetics of d-Arg⁰Hyp³,d-Phe⁷,Leu⁸]BK were weak inhibitors of angiotensin converting enzyme. All other TRI peptidomimetics had no effect upon ACE activity. These data endorse the utility of the TRI strategy for the synthesis of protease-resistant antagonists of peptide hormones and neuropeptides.