Y. Yoshimura et T. Tsumoto, DEPENDENCE OF LTP INDUCTION ON POSTSYNAPTIC DEPOLARIZATION - A PERFORATED PATCH-CLAMP STUDY IN VISUAL CORTICAL SLICES OF YOUNG-RATS, Journal of neurophysiology, 71(5), 1994, pp. 1638-1645
1 To see whether there is a threshold of postsynaptic depolarization f
or induction of long-term potentiation (LTP) or depression (LTD) of sy
naptic transmission, perforated patch-clamp recordings were carried ou
t under microscopic observation from 61 layer II/III neurons in visual
cortical slices of young rats. Electrical stimulation given to nearby
neurons was paired with stepwise shifts (30- or 300-ms duration) of c
lamped membrane potential of the recorded neurons to various levels. 2
. Excitatory postsynaptic currents (EPSCs) were elicited by focal stim
ulation of a nearby pyramidal cell-like neuron. As the intensity of st
imulation was increased, EPSCs emerged abruptly with 100% probability,
and their peak latencies and amplitudes remained almost constant up t
o more than twice the threshold, indicating that the EPSCs were elicit
ed monosynaptically. 3. LTP of EPSCs was induced in 11 of the 15 cells
after pairing with a step to -20 mV and in 5 of the 14 cells after pa
iring with a step to -40 mV. No LTP was observed when the postsynaptic
cells were clamped at -60, -70, or -90 mV. Significant LTD was not se
en at any membrane potential level tested. There was no significant di
fference between the duration of potential shift of 30 and 300 ms duri
ng the pairing procedure in induction probability of LTP and magnitude
of LTP, if it was induced. 4. These results suggest that LTP is induc
ed by synaptic inputs associated with postsynaptic depolarization abov
e the threshold around -40 mV at synapses linking layer II/III neurons
in the developing visual cortex.