CYCLIC ADENOSINE 3′,5′‐MONOPHOSPHATE IN GUINEA‐PIG CEREBRAL CORTICAL SLICES: STUDIES ON THE ROLE OF ADENOSINE

— In guinea‐pig cerebral cortical slices levels of cyclic AMP increase in response to adenosine to about 200pmol/mg protein within 10 min and stay at that level up to 30 min. In the absence of calcium ions and the presence of 1m m ‐EGTA in the Krebs‐Ringer‐bicarbonate medium the effect of adenosine is enhanced, cyclic AMP levels rise to about 600 pmol/mg protein within 30 min. In normal and calcium deficient media restimulation of cyclic AMP formation with adenosine is possible after a prior stimulation with adenosine. When slices are preincubated for various periods of time with histamine or adenosine before addition of the complementary agent i.e. adenosine or histamine cyclic AMP levels obtained are unaltered compared to levels seen when adenosine and histamine are added together. Slices which are rendered unresponsive to stimulation with histamine + noradrenaline by a prior incubation with these agents do not regain any response during a 100 min period of incubation in medium. The PDE inhibitors diazepam, SQ 66007 and isobutylmethylxanthine are capable of restoring the sensitivity of the slices to histamine + noradrenaline. This suggests an involvement of PDE in the unresponsive phase of the slices. Addition of adenosine to slices not affected by histamine + noradrenaline does reestablish the response of these slices to the neurohormones. A dose‐response curve of adenosine for the interaction with histamine + noradrenaline yields an ED 50 of 16 μM using sensitive or desensitized slices. An adenosine concentration of only 7 μM is necessary to restore the original increase of cyclic AMP in response to histamine + noradrenaline to slices insensitive to the biogenic amines. The data are discussed in terms of a possible activation of PDE within cerebral cortical slices from guinea‐pig. Adenosine may reverse this activation. The possibility of inactivation of adenylate cyclase during stimulation of cyclic AMP formation and the role of adenosine and PDE inhibitors in this process is being considered.