Identification of an adenosine receptor domain specifically involved in binding of 5'-substituted adenosine agonists.

Abstract

The bovine A1 adenosine receptor (A1AR) and rat A3 adenosine receptor (A3AR) display distinct agonist and antagonist binding properties. To identify regions involved in ligand recognition, A1AR/A3AR chimeric receptors were created, expressed in COS-7 cells, and analyzed by radioligand binding. A chimeric receptor in which the third intracellular loop of the A1AR was replaced with that of the A3AR bound agonists and the antagonist, [3H]xanthine amine congener, with affinities identical to wild-type A1AR. A chimeric receptor with the fifth transmembrane domain (TM5) and third intracellular loop of the A1AR replaced with that of the A3AR displayed antagonist affinity similar to wild-type A1AR. However, relative to the A1AR, this chimeric demonstrated much greater affinity for 5'-substituted adenosine analogs, whereas affinity for N6-substituted compounds was unaffected. Substitution of a 6-amino acid cassette of the exofacial half of TM5 of the A3AR into the A1AR produced enhanced binding of exclusively a 5'-substituted analog, indicating involvement of this specific region in ligand recognition. These findings suggest that the 5'- and N6-substituents of adenosine agonists bind to distinct regions of ARs and that TM5 of the A3AR interacts more favorably with 5'-substituted compounds than does that of the A1AR.