Accumulation of adenosine 3′,5′‐monophosphate in incubated slices from discrete regions of squirrel monkey cerebral cortex: effect of norepinephrine, serotonin and adenosine

THE ROLE of adenosine 3′5′‐monophosphate (cyclic AMP) in the central nervous system is as yet unknown. However, a variety of putative neurotransmitters such as norepinephrine, serotonin and histamine have been found to elicit enhanced accumulations of cyclic AMP in cerebral cortical slices from a variety of species (SHIMIZU and DALY, 1972; FORN and KRISHNA, 1971; SHIMIZU, TANAKA, SUZUKI and MATSUKADO, 1971; FUMAGALLI, BERNAREGGI, BERTI and TRABUCCHI, 1971). In addition, depolarization of membranes in cortical slices elicits a marked accumulation of cyclic AMP, probably mediated through the action of adenosine (KAKIUCHI, RALL and MCILWAIN, 1969; SHIMIZU. CREVELING and DALY, 1970). These results, obtained with grey matter from the entire cerebral cortex, suggest an intimate relationship between neuronal activity, release of putative neurotransmitters, and enhanced accumulation of cyclic AMP in brain tissue. Since innervation and electrical activity in the cerebral cortex differs among functionally distinct neocortical areas and in the histologically distinct limbic cortex, it appeared possible that these differences would also be manifest in the regional control of cyclic AMP levels. We now report that the response of the cyclic AMP generating system to putative neurotransmitters and adenosine does differ among discrete functional regions of the squirrel monkey cerebral cortex.