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The Journal of Neurophysiology Vol. 82 No. 3 September 1999, pp. 1352-1362
Copyright ©1999 by the American Physiological Society
Institute for Neurobiology, University of Amsterdam, 1098 SM Amsterdam, The Netherlands
Wierenga, Corette J. and
Wytse J. Wadman.
Miniature Inhibitory Postsynaptic Currents in CA1 Pyramidal
Neurons After Kindling Epileptogenesis. J. Neurophysiol. 82: 1352-1362, 1999. Miniature inhibitory
postsynaptic currents (mIPSCs) were measured in CA1 pyramidal neurons
from long-term kindled rats (>6 weeks after they reached the stage of
generalized seizures) and compared with controls. A large reduction in
the number of mIPSCs was observed in a special group of large mIPSCs
(amplitude >75 pA). The frequency of mIPSCs in this group was reduced
from 0.042 Hz in controls to 0.027 Hz in the kindled animals. The
reduction in this group resulted in a highly significant difference in
the amplitude distributions. A distinction was made between fast mIPSCs (rise time <2.8 ms) and slow mIPSCs. Fast mIPSCs, which could originate from synapses onto the soma and proximal dendrites, had
significantly larger amplitudes than slow mIPSCs, which could originate
from more distal synapses (35.4 ± 1.1 vs. 26.2 ± 0.4 pA in
the kindled group; means ± SE). The difference in the value of
the mean of all amplitudes and frequency of fast and slow mIPSCs did
not reach significance when the kindled group was compared with
controls. The mIPSC kinetics were not different after kindling, from
which we conclude that the receptor properties had not changed. Nonstationary noise analysis of the largest mIPSCs suggested that the
single-channel conductance and the number of postsynaptic receptors was
similar in the kindled and control groups. Our results suggest a
40-50% reduction in a small fraction of (peri-) somatic synapses with
large or complex postsynaptic structure after kindling. This
functionally relevant reduction may be related to previously observed
loss of a specific class of interneurons. Our findings are consistent
with a reduction in inhibitory drive in the CA1 area. Such a reduction
could underlie the enhanced seizure susceptibility after kindling epileptogenesis.
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