Pharmacological characterization of DPTN and other selective A3 adenosine receptor antagonists

The A₃ Adenosine Receptor (AR) is emerging as an attractive drug target. Antagonists are proposed for the potential treatment of glaucoma and asthma. However, currently available A₃AR antagonists are potent in human and some large Animals, but weak or inactive in mouse and rat. In this study, we re-synthesized a previously reported A₃AR antagonist, DPTN, and evaluated its affinity and selectivity at human, mouse, and rat ARs. We showed that DPTN, indeed, is a potent A₃AR antagonist for all three species tested, albeit a little less selective for mouse and rat A₃AR in comparison to the human A₃AR. DPTN's K_i values at respective A₁, A_2A, A_2B, and A₃ receptors were (nM) 162, 121, 230, and 1.65 (human); 411, 830, 189, and 9.61 (mouse); and 333, 1147, 163, and 8.53 (rat). Its antagonist activity at both human and mouse A₃ARs was confirmed in a cyclic AMP functional assay. Considering controversial use of currently commercially available A₃AR antagonists in rats and mice, we also re-examined other commonly used and selective A₃AR antagonists under the same experimental conditions. The K_i values of MRS1523 were shown to be 43.9, 349, and 216 nM at human, mouse, and rat A₃ARs, respectively. MRS1191 and MRS1334 showed incomplete inhibition of [¹²⁵I]I-AB-MECA binding to mouse and rat A₃ARs, while potent human A₃AR antagonists, MRS1220, MRE3008F20, PSB10, PSB-11, and VUF5574 were largely inactive. Thus, we demonstrated that DPTN and MRS1523 are among the only validated A₃AR antagonists that can be possibly used (at an appropriate concentration) in mouse or rat to confirm an A₃AR-related mechanism or function.