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pubmed:abstractText |
The time course of habituation and recovery of neurotransmitter release was measured in neuronally differentiated PC12 cells stimulated with either acetylcholine or ATP. The release of norepinephrine in response to either stimulant declined exponentially with repeated presentation of that stimulant. When the stimulus was withheld, the cells' ability to respond recovered to initial levels with an exponential time course. The rate of response recovery depended on the stimulant used and, in the case of stimulation with acetylcholine, on the number of previous stimuli. After habituation and recovery, or partial recovery, of norepinephrine release, the response to a second series of repetitive stimuli declined more rapidly than in the naive case. This increase in habituation rate was dependent on the number of previous stimuli and, in the case of stimulation with acetylcholine, was stable with time for at least 90 min after stimulation. These phenomena are analogous to characteristics of short- and long-term memories of habituative learning observed in behavioral studies. Kinetic equations based on a putative reversible stimulation-dependent inactivation of the cellular response mechanism were used to analyze the rates of habituation and response recovery.
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