Abstract
Using dual intracellular recordings in slices of adult rat and cat neocortex, the frequency-filtering characteristics of 'depressing' synapses made by pyramidal axons at interspike intervals between 5 and 50 ms were studied. At 'depressing' connections from excitatory cells to some inhibitory interneurons (n = 6), recovery from short interspike interval depression was near exponential. Extrapolation of exponentials fitted to this recovery demonstrated a residual 10-20% depression at intervals >50 ms. This slowly decaying component was larger for later excitatory postsynaptic potentials (EPSPs) in trains which were typically more strongly depressed. At >80% of connections between spiny excitatory cells and at pyramid to parvalbumin-immunopositive interneuron connections, however, recovery exhibited a more complex time course. A narrow 'notch' (half-width 5 ms), peaking at intervals of 13-25 ms during which the EPSP was depressed further, interrupted recovery from short interval depression. This 'notch' was equally apparent for all EPSPs in brief trains and was mediated presynaptically.
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