The A1 adenosine receptor. Solubilization and characterization of a guanine nucleotide-sensitive form of the receptor.

Adenosine acting through membrane-bound A1 receptors is capable of inhibiting the enzyme adenylate cyclase. A1 adenosine receptors from rat cerebral cortex have been solubilized in high yield and in an active form with the detergent digitonin. The solubilized receptors bind the agonist radioligand (-)-N6-3-[125I] iodo-4-hydroxyphenylisopropyl)adenosine (HPIA) with the same high affinity, demonstrate the same agonist and antagonist potency series and stereo-specificity as the membrane-bound A1 receptor. In addition to maintaining high affinity agonist binding, soluble A1 receptors' affinity for agonists is still modulated by guanine nucleotides. This result contrasts with other adenylate cyclase coupled receptors (beta 2, alpha 2, D2) wherein high affinity agonist binding is lost subsequent to solubilization. To investigate the molecular basis for this difference, solubilized A1 receptors which were labeled with [125I]HPIA either prior to or subsequent to solubilization, were compared by sucrose density gradient centrifugation. Both labeled species demonstrated exactly the same sedimentation properties and display guanine nucleotide sensitivity. This suggests that the same guanine nucleotide-sensitive receptor complex formed in membranes in stable to solubilization and can form a high affinity agonist complex in soluble preparation. The molecular mechanism responsible for the stable receptor complex in this system compared to the beta 2, alpha 2, and D2 systems remains to be determined.