[No authors listed]
Using bioluminescence resonance energy transfer and proximity ligation assays, we obtained the first direct evidence that adenosine Aâ receptors (AâRs) form homomers not only in cell cultures but also in brain cortex. By radioligand binding experiments in the absence or in the presence of the AâRs allosteric modulator, adenosine deaminase, and by using the two-state dimer receptor model to fit binding data, we demonstrated that the protomer-protomer interactions in the AâR homomers account for some of the pharmacological characteristics of agonist and antagonist binding to AâRs. These pharmacological properties include the appearance of cooperativity in agonist binding, the change from a biphasic saturation curve to a monophasic curve in self-competition experiments and the molecular cross-talk detected when two different specific molecules bind to the receptor. In this last case, we discovered that caffeine binding to one protomer increases the agonist affinity for the other protomer in the AâR homomer, a pharmacological characteristic that correlates with the low caffeine concentrations-induced activation of agonist-promoted AâR signaling. This pharmacological property can explain the biphasic effects reported at low and high concentration of caffeine on locomotor activity.
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