Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus

Mishra RK. 2016. Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus. Institute of Science and Technology Austria.

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Thesis | PhD | Published | English
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ISTA Thesis
Abstract
CA3 pyramidal neurons are thought to pay a key role in memory storage and pattern completion by activity-dependent synaptic plasticity between CA3-CA3 recurrent excitatory synapses. To examine the induction rules of synaptic plasticity at CA3-CA3 synapses, we performed whole-cell patch-clamp recordings in acute hippocampal slices from rats (postnatal 21-24 days) at room temperature. Compound excitatory postsynaptic potentials (ESPSs) were recorded by tract stimulation in stratum oriens in the presence of 10 µM gabazine. High-frequency stimulation (HFS) induced N-methyl-D-aspartate (NMDA) receptor-dependent long-term potentiation (LTP). Although LTP by HFS did not requier postsynaptic spikes, it was blocked by Na+-channel blockers suggesting that local active processes (e.g.) dendritic spikes) may contribute to LTP induction without requirement of a somatic action potential (AP). We next examined the properties of spike timing-dependent plasticity (STDP) at CA3-CA3 synapses. Unexpectedly, low-frequency pairing of EPSPs and backpropagated action potentialy (bAPs) induced LTP, independent of temporal order. The STDP curve was symmetric and broad, with a half-width of ~150 ms. Consistent with these specific STDP induction properties, post-presynaptic sequences led to a supralinear summation of spine [Ca2+] transients. Furthermore, in autoassociative network models, storage and recall was substantially more robust with symmetric than with asymmetric STDP rules. In conclusion, we found associative forms of LTP at CA3-CA3 recurrent collateral synapses with distinct induction rules. LTP induced by HFS may be associated with dendritic spikes. In contrast, low frequency pairing of pre- and postsynaptic activity induced LTP only if EPSP-AP were temporally very close. Together, these induction mechanisms of synaptiic plasticity may contribute to memory storage in the CA3-CA3 microcircuit at different ranges of activity.
Publishing Year
Date Published
2016-03-01
Publisher
Institute of Science and Technology Austria
Page
83
ISSN
IST-REx-ID

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Mishra RK. Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus. 2016.
Mishra, R. K. (2016). Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus. Institute of Science and Technology Austria.
Mishra, Rajiv Kumar. “Synaptic Plasticity Rules at CA3-CA3 Recurrent Synapses in Hippocampus.” Institute of Science and Technology Austria, 2016.
R. K. Mishra, “Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus,” Institute of Science and Technology Austria, 2016.
Mishra RK. 2016. Synaptic plasticity rules at CA3-CA3 recurrent synapses in hippocampus. Institute of Science and Technology Austria.
Mishra, Rajiv Kumar. Synaptic Plasticity Rules at CA3-CA3 Recurrent Synapses in Hippocampus. Institute of Science and Technology Austria, 2016.
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