POSTSYNAPTIC ADRENERGIC-CYCLIC AMP CONTROL OF THE SEROTONIN CONTENT OF CULTURED RAT PINEAL GLANDS

Abstract— This investigation was designed to determine whether the amount of serotonin (5-HT) in cultured pineal glands can be altered by norepinephrine (NE). Treatment with l -NE (10^?5-10^?7m ) for 4-6 h caused a gradual decrease in the concentration of 5-HT to a value that was less than 30% of that in the untreated control gland. This effect was observed using chronically denervated pineal glands. d -Norepinephrine (10^?6-10^?7m ) and dopamine (10^?4m ) were ineffective in lowering 5-HT. The effect of l -NE was completely blocked by a β-adrenergic receptor blocker, propranolol and was only slightly decreased by α-adrenergic receptor blockers. These observations indicate that l -NE acts post-synaptically via a highly specific β-adrenergic mechanism. The effect of l -norepinephrine was mimicked by theophylline and N⁶, 2′0-dibutyryl adenosine 3′,5′-monophosphate, an indication that adenosine 3′,5′-monophosphate is involved in the effect of l -NE on 5-HT. Treatment with cycloheximide, which by itself caused a decrease in pineal 5-HT, also blocked any further decrease caused by treatment with l -NE, an indication that protein synthesis is necessary for maintenance of baseline levels of serotonin and for the effect of l -NE to be observed. The total amount of l -[³H]NE and degradation products of L-[³H]NE in the gland after 6 h of treatment with l -[³H]NE was less than 3 pmol. This amount of l -NE and degradation products of l -NE could not account for the decrease of 100-200 pmol of 5-HT on the basis of a mole for mole replacement of 5-HT by l -NE. These findings are consistent with the hypothesis that non-neuronal pineal 5-HT is physiologically regulated by the release of l -NE from the sympathetic nerve network.