Abstract
The electrophysiological characteristics of frequency potentiation and habituation were investigated in 2 afferent systems of the in vitro hippocampal slice preparation [of rats]. Low frequency stimulation (1 Hz) of the Schaffer collateral-commissural (Sch-comm) fibers results in a short-term potentiation of the amplitude and rate of rise of the EPSP [excitatory postsynaptic potential] and population spike responses recorded in the CA1 region. One-Hz stimulation of the perforant path (PP) evoked a short-term, habituation-like depression of the dentate granule cell EPSP and population spike. An inverse relationship was observed between stimulus intensity and the magnitude of frequency potentiation or habituation. Changes in afferent fiber volleys or general excitability of postsynaptic membranes did not contribute significantly to the development of either of these forms of short-term plasticity. Perfusion with a medium containing a high Ca2+- low Mg2+ concentration (4 mM Ca2+ and 1 mM Mg2+) produced a differential effect on CA1 and dentate evoked potentials. Following a 20-min exposure to this medium, the amplitude of CA1 potentials was increased while dentate responses were decreased. Frequency potentiation of CA1 responses and habituation of dentate responses were depressed or eliminated by the high Ca medium. The opposing influence of extracellular Ca on CA1 and dentate evoked potentials indicates a fundamental difference in the process of transmitter release in these systems, a characteristic that may contribute to the production of frequency potentiation and habituation.