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1 Center for Molecular and Behavioral Neuroscience, Rutgers University, Newark, NJ, USA
2 Dept of Mathematical Sciences, New Jersey Institute of Technology, Newark, NJ, USA; Dept of Biological Sciences, Rutgers University, Newark, NJ, USA
* To whom correspondence should be addressed. E-mail: farzan{at}njit.edu.
Short-term dynamics such as facilitation and depression are present in most synapses and are often target-specific, even for synapses from the same type of neuron. We examine the dynamics and possible functions of two synapses from the same presynaptic neuron in the rhythmically active pyloric network of the spiny lobster. Using simultaneous recordings, we show that the synapses from the lateral pyloric (LP) neuron to the pyloric dilator (PD; a member of the pyloric pacemaker ensemble) and the pyloric constrictor (PY) neurons both show short-term depression. However, the postsynaptic potentials produced by the LP to PD synapse are larger in amplitude, depress less and recover faster than those produced by the LP to PY synapse. The main function of the LP to PD synapse is to slow down the pyloric rhythm. However, in some cases it slows down the rhythm only when it is fast and has no effect or to speeds up when it is slow. In contrast, the LP to PY synapse functions to delay the activity of the PY neuron; this delay increases as the cycle period becomes longer. Using a computational model, we show that the short-term dynamics of synaptic depression observed for each of these synapses are tailored to their individual functions and that replacing the dynamics of either synapse with the other would disrupt these functions. Together, the experimental and modeling results suggest that the target-specific features of short-term synaptic depression are functionally important for synapses efferent from the same presynaptic neuron.
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