Enhanced synaptic transmission at identified synaptic connections in the cerebral ganglion of Aplysia

Abstract

The identified A-B neuron synaptic connections in the cerebral ganglion of Aplysia exhibited a novel form of enhanced synaptic transmission. A brief high-frequency train of action potentials (2 s, 10–30 Hz) in the presynaptic A neurons produced a long-lasting increase in the amplitude of excitatory postsynaptic potentials (EPSPs) in B neurons. The increase in synaptic efficacy was termed slow developing potentiation (SDP) since the EPSP amplitude increased slowly with the peak occurring 5 min after the tetanizing train. Peak EPSP amplitudes increased relative to the initial EPSP by an average of250%. SDP decayed as a single exponential with a time constant ofτ = 24min. Th enhanced transmission was neuron specific. Only the connections made by the tetanized A neuron were potentiated. However, potentiation apparently occurred at all the synapses made by the tetanized A neuron. Tetanizing the postsynaptic B neurons neither induced, nor when paired with A neuron tetanization, increased SDP. SDP appears to be primarily due to increased transmitter release by the presynaptic neuron.