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  • Title: Postsynaptic control of the induction of long-term changes in efficacy of transmission at neocortical synapses in slices of rat brain.
    Author: Bindman LJ, Murphy KP, Pockett S.
    Journal: J Neurophysiol; 1988 Sep; 60(3):1053-65. PubMed ID: 2845015.
    Abstract:
    1. Long-term potentiation (LTP) is an enduring, activity-induced increase in the efficacy of synaptic transmission, which has been considered as a possible neural substrate for learning. Recent experiments have shown that LTP can be induced in hippocampal CA1 neurons when a presynaptic volley is paired repetitively with depolarization of the postsynaptic cell, brought about with intracellularly applied depolarizing current pulses (20, 33). We have repeated these experiments in neocortical neurons, in transverse slices of rat sensorimotor cortex in vitro. 2. Stable intracellular recordings were obtained from 28 neurons (mean resting potential -78 mV, mean spike amplitude 95 mV, mean input resistance 41 M omega) mostly in layers V and VI. Two different afferent pathways were stimulated alternately at 0.2 Hz to evoke subthreshold composite excitatory postsynaptic potentials (EPSPs). One micromolar bicuculline methiodide was added to the bathing medium in most experiments. 3. Repetitive pairing of one afferent volley with a coincident intracellular depolarizing current pulse (100-200 ms long) of a magnitude sufficient to make the neuron fire 6 to 13 action potentials/pulse, gave rise after 30-50 pairings in 4 neurons to a significant enduring increase in the amplitude of the paired EPSP. The increase persisted without decrement for as long as the recording continued (range 15-50 min after the pairing ended) but the amplitude of the unpaired EPSP was unchanged. During the LTP, the membrane potential and the apparent input resistance of the postsynaptic neurons were also unchanged. 4. In two cells a significant prolonged depression of the paired EPSP was induced while the unpaired EPSP was unaffected. Membrane potential and input resistance were not changed. In the remaining 22 cells neither the paired nor the unpaired EPSP was altered. 5. Brief, tetanic stimulation was applied to one afferent pathway in 11 of the neurons in which postsynaptic stimulation had been ineffective. A variety of effects was produced (LTP, depression, or posttetanic potentiation). All the effects of tetanic stimulation were confined to the stimulated pathway. 6. We conclude that LTP can be produced in some neocortical neurons by pairing a presynaptic volley with postsynaptic depolarization, in an experimental paradigm that conforms to Hebb's (17) model of associative conditioning. Depression of the paired EPSP was produced in other cells with the same experimental design.(ABSTRACT TRUNCATED AT 400 WORDS)
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