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Reversible Synaptic Depression in Developing Rat CA3–CA1 Synapses Explained by a Novel Cycle of AMPA Silencing-Unsilencing

Department of Physiology, Sahlgrenska Academy, Göteborg University, Goteborg, Sweden

Submitted 28 May 2007; accepted in final form 4 September 2007

In the developing hippocampus, experiments using whole cell recordings have shown that a small number of synaptic activations can convert many glutamate synapses to AMPA silent synapses. This depression of AMPA signaling is induced by low-frequency (0.05–0.2 Hz) activation, does not require N-methyl-D-aspartate or metabotropic glutamate receptor activation for its induction, and does not readily reverse after stimulus interruption. Here we show, using field recordings and perforated patch-clamp recordings of transmission in developing CA3–CA1 synapses, that this synaptic depression also can be observed under more noninvasive recording conditions. Moreover, under these conditions, the synaptic depression spontaneously recovers within 20 min by the absence of synaptic activation alone, with a time constant of 7 min as determined by field excitatory postsynaptic potential recordings. Thus as for the expression of long-term potentiation (LTP), recovery from this depression is susceptible to whole cell dialysis ("wash-out"). In contrast to LTP-induced unsilencing, the AMPA signaling after stimulus interruption was again labile, resumed stimulation resulted in renewed depression. The present study has thus identified a novel cycle for AMPA signaling in which the nascent glutamate synapse cycles between an AMPA silent state, induced by a small number of synaptic activations, and a labile AMPA signaling, induced by prolonged inactivity.