Selective short- and long-term effects of serotonin, small cardioactive peptide, and tetanic stimulation on sensorimotor synapses of Aplysia in culture.

Synapses between the sensory and motor cells of Aplysia can be enhanced by heterosynaptic or homosynaptic stimulation. We have used the isolated sensorimotor synapse of Aplysia in cell culture to explore short- and long-term heterosynaptic facilitation produced by 2 facilitatory transmitters and compared these to homosynaptic facilitation produced by posttetanic potentiation. We found that brief application of 5-HT or small cardioactive peptide (SCP) evokes comparable short-lasting enhancement of nondepressed sensorimotor synapses. The effect evoked by SCP diverges from that of 5-HT when the sensorimotor synapse is first depressed by low-frequency homosynaptic stimulation. Whereas 5-HT facilitates sensorimotor synapses whether or not they are depressed, SCP has little or no effect on synapses that have been depressed by more than 75%. The 2 transmitters also differ in producing long-term facilitation. Whereas repeated applications of 5-HT evoke long-term facilitation of the synapses, SCP applications do not. To determine whether these failures to facilitate could be overcome by increasing levels of cAMP, we applied SCP in the presence of phosphodiesterase inhibitors, which resulted in SCP evoking both short- and long-term changes comparable to that of 5-HT. Homosynaptic facilitation by post-tetanic potentiation differed from heterosynaptic facilitation in that tetanic stimulation failed to evoke long-lasting changes in the synapse. These results support recent findings that 5-HT is a critical neuromodulator in behavioral sensitization and dishabituation and suggest that critical levels of cAMP may be required for long- and short-term facilitation of depressed synapses.(ABSTRACT TRUNCATED AT 250 WORDS)