Age‐dependent decrease in adenosine A1 receptor binding sites in the rat brain

Abstract

Unsaturated free fatty acids and adenosine operate two neuromodulatory systems with opposite effects on neuronal function. Here, we tested if fatty acids controlled inhibitory adenosine A₁ receptors. Arachidonate (AA, 10 µm) decreased the B_max of an A₁ receptor agonist, (R)-[³H]phenylisopropyladenosine (PIA; from 812 to 267 fmol·mg⁻¹ protein), and antagonist, [³H]1,3-dipropyl-8-cyclopentylxanthine (DPCPX; from 994 to 311 fmol·mg⁻¹ protein) and decreased the K_d of [³H]PIA (from 1.20 to 0.57 nm) binding to brain membranes of young adult rats (2 months old), these effects being mimicked by other cis but not trans unsaturated or saturated fatty acids. AA (10 µm) increased the potency of the A₁ receptor agonist, 2-chloroadenosine to inhibit hippocampal synaptic transmission in young adult rats (EC₅₀ decreased from 337 to 237 nm), which may constitute a safety feedback mechanism to control AA-induced neurotoxicity. Upon aging, there were increased free fatty acid levels and a concomitant decreased density of A₁ receptors. This was more marked in hippocampal nerve terminals of aged rats (24 months old) and may be the determinant factor contributing to the lower potency of 2-choloroadenosine in aged rats (EC₅₀ = 955 nm), in spite of the decreased K_d of PIA binding upon aging. The effects of AA on A₁ receptor binding were attenuated upon aging, AA being devoid of effects in aged rats. Accordingly, AA (10 µm) failed to modify the potency of 2-choloroadenosine in aged rats (EC₅₀ = 997 nm). However, albumin, which quenches free fatty acids, increased A₁ receptor density by 65% and 2-chloroadenosine potency (EC₅₀ = 703 nm) in aged rats, suggesting that the increased fatty acids levels in aged rats may contribute to the decreased potency of A₁ receptor agonists in aged rats. Also, the observed saturation of the control by AA of A₁ receptors may contribute to the decreased adaptability of neuromodulation to different firing conditions in aged rats.