CYCLIC ADENOSINE 3′, 5′‐MONOPHOSPHATE IN GUINEA PIG CEREBRAL CORTICAL SLICES: POSSIBLE REGULATION OF PHOSPHODIESTERASE ACTIVITY BY CYCLIC ADENOSINE 3′, 5′‐MONOPHOSPHATE AND CALCIUM IONS

— Cyclic adenosine 3′, 5′‐monophosphate (cyclic AMP) accumulates in guinea pig cerebral cortical slices during incubation with histamine, histamine + noradrenaline and adenosine. Noradrenaline does not enhance cyclic AMP formation. In the absence of Ca 2+ ions and presence of 1 mM‐EGTA in the Krebs‐Ringer bicarbonate medium the effects of histamine, histamine + noradrenaline and adenosine are significantly enhanced and noradrenaline elicits an increase in cyclic AMP over control levels. When histamine is used as stimulant, cyclic AMP levels start to decline after only 5 min. However, in the absence of calcium and in the presence of EGTA in the medium this decline is not observed and cyclic AMP levels continue to rise for a considerable period of time. In normal medium, responses to restimulation by histamine or histamine + noradrenaline are greatly reduced in magnitude after a prior stimulation by these putative neurotransmitters. In contrast, when calcium is omitted from the incubation medium and 1 mM‐EGTA is included, cyclic AMP levels increase to normal values at a second stimulation with histamine or histamine + noradrenaline. When slices are preincubated for various periods of time with histamine before addition of noradrenaline, the accumulation of cyclic AMP is significantly reduced as compared to levels obtained when histamine + noradrenaline were added simultanously. This decline in the overall response to histamine + noradrenaline is not observed when preincubation with histamine and subsequent incubations with histamine + noradrenaline are performed in Ca 2+ ‐free, 1 mM‐EGTA containing buffer. Also preincubation with noradrenaline in normal, calcium‐containing medium does not affect the total amount of cyclic AMP accumulating in the brain slices. The results are discussed in terms of an activation of phosphodiesterase within the cerebral cortical slices by increased levels of intracellular, freely available calcium which is mediated by the elevation of cyclic AMP concentration following hormonal stimulation.