PD 115,199: An antagonist ligand for adenosine A2 receptors

Abstract

Summary PD 115,199, N-[2-(dimethylamino)ethyl]-N-methyl-4- (2,3,6,7-tetrahydro-2,6-dioxo-1,3 -dipropyl-1H-purin-8-yl)benzenesulfonamide, was found to have high affinity for the A₂ adenosine receptor labeled by ³H-NECA in rat striatal membranes (K _i 15.5 nM). Unlike other potent adenosine antagonists, which always showed some degree of selectivity for the A₁ receptor, PD 115,199 had equal affinity at A₁ and A₂ receptors (K _i in ³H-CHA binding to A₁ receptors 13.9 nM). ³H-PD 115,199 (126 Ci/mmol) was prepared by reduction of the diallyl analog, and binding experiments were performed with 0.5 nM ³H-PD 115,199 at 25°C in rat striatal membranes. By nonlinear least-squares analysis of the concentration-inhibition curve for the highly A₁-selective adenosine antagonist PD 116,948 (8-cyclopentyl-1,3-dipropylxanthine), it could be demonstrated that about 11% of specific ³H-PD 115,199 binding was to A₁ receptors, and the remainder to A₂ receptors. A 20 nM concentration of PD 116,948 was included in subsequent experiments to eliminate the A₁ component of binding. The remaining binding had a K _d of 2.6 nM and B _max of 56 pmol/g wet weight. Specific binding was about 79% of total binding. Affinities of compounds in the ³H-PD 115,199 assay were consistent with binding to a high-affinity A₂ receptor: antagonists were consistently about three times more potent in ³H-PD 115,199 binding than in ³H-NECA binding, whereas agonists were consistently about fivefold less potent. Binding of ³H-PD 115,199 was much higher in striatum than in other brain regions, a distribution which is in agreement with the known localization of the high-affinity A₂ receptor. No evidence of binding to the low-affinity A₂ receptor was observed.