Abstract

In order to investigate the molecular basis for the ability of the human B1 and B2 bradykinin (BK) receptor subtypes to discriminate between subtype-selective ligands, we constructed chimeric proteins in which the sixth transmembrane domains (TM-VI) of these receptors were exchanged. The pharmacological profiles of the constructs were analyzed by radioligand binding in particulate preparations of transiently transfected HEK293 cells using the agonist [3H]des-Arg10-kallidin and the antagonist [3H]NPC17731. The ability of these constructs to transmit an intracellular signal was measured in transiently transfected A10 cells, a vascular smooth muscle cell line, by single cell Ca2+ imaging. Substitution of B1 TM-VI into the B2 receptor (B2(B1VI)) dramatically reduced the affinity of the B2-selective agonist BK, whereas the affinity of the B2-selective antagonist NPC17731 was unaltered. High affinity BK binding was fully regained when two residues, Tyr259 and Ala263, near the extracellular surface of TM-VI in B2(B1VI), were replaced with the corresponding residues in the wild-type B2 receptor, which are Phe259 and Thr263. The construct B1(B2VI), produced by substitution of B2 TM-VI into the B1 receptor, did not support high affinity binding of the B1-selective agonist des-Arg10-kallidin. In contrast to BK and des-Arg10-kallidin, the binding of the less subtype-selective agonist kallidin showed little sensitivity to TM-VI exchange. These results show that TM-VI in the human B1 and B2 BK receptor subtypes, although only 36% identical, are structurally compatible. Furthermore, this domain contributes significantly to the ability of these receptors to discriminate between the subtype-selective agonists BK and des-Arg10-kallidin.

Highlights

  • The B1 receptor activity is normally low but increases following trauma (5)

  • Ligand Binding to Chimeric B1/B2 Bradykinin Receptor Constructs larity between the B1 and B2 receptors increases significantly when considering only those residues facing the ligand binding pocket proposed for G-protein-coupled receptors

  • In light of the potential role of TM-VI in agonist binding to the B2 receptor, we were interested in evaluating the involvement of this domain in the ability of human B1 and B2 receptors to discriminate between kinin ligands

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Summary

Introduction

The B1 receptor activity is normally low but increases following trauma (5). The two receptor subtypes can be distinguished by BK1, which binds primarily to the B2 receptor, and the carboxypeptidase fragments des-Arg9-BK and des-Arg10-Lys-BK, known as des-Arg10-kallidin, which bind primarily to the B1 receptor. The pharmacological profiles of the WT receptors and chimeric receptor constructs were evaluated by determining the binding constants for various kinin agonist and antagonist ligands in equilibrium radioligand binding assays using membrane preparations of HEK293 cells transiently transfected with receptor cDNAs The WT B1 receptor was identified by high affinity binding of the agonist [3H]des-Arg10-KD.

Results
Conclusion

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