Abstract
1. The effects of adenosine A2A and A1 receptor activation on the release of glutamate were studied in rat cerebral cortex synaptosomes exposed in superfusion to adenosine receptor ligands. 2. Adenosine (0.1 microM) produced a significant potentiation of the Ca2+-dependent K+ (15 mM)-evoked [3H]-D-aspartate overflow (20.4+/-3.5%), which was blocked by A2A blocker SCH58261 (0.1 microM). At higher concentrations (10 - 1000 microM) adenosine inhibited in a DPCPX-sensitive manner the Ca2+-dependent K+-evoked [3H]-D-aspartate overflow. The inhibitory effect of adenosine at 1000 microM was significantly increased by SCH58261. This inhibition was antagonized by 1 microM DPCPX. Adenosine did not produce any effect on basal release. 3. The A2A receptor agonist CGS 21680 was ineffective on basal release, but stimulated the Ca2+-dependent K+-evoked overflow of [3H]-D-aspartate (EC50 approximately 1 pM). The effect of 0.01 nM CGS 21680 was totally sensitive to the A2A receptor antagonist SCH58261 (IC50 approximately 5 nM). 4. The A1 receptor agonist CCPA inhibited the Ca2+-dependent K+-evoked [3H]-D-aspartate overflow (EC50 approximately 20 nM). The effect of 100 nM CCPA was abolished by 100 nM of the A1 receptor antagonist DPCPX. 5. The K+ (15 mM)-evoked overflow of endogenous glutamate was enhanced by CGS 21680 (0.01 nM) and inhibited by CCPA (0.1 microM). The effect of CGS 21680 was abolished by SCH58261 (0.1 microM) and that of CCPA by DPCPX (0.1 microM). 6. It is concluded that adenosine and adenosine receptor agonists modulate glutamate release by activating inhibitory A1 and excitatory A2A receptors present on glutamatergic terminals of the rat cerebral cortex.
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