Optimal balance predicts/explains amplitude and decay time of iPSGs (Kim & Fiorillo 2017)


"Synaptic inhibition counterbalances excitation, but it is not known what constitutes optimal inhibition. We previously proposed that perfect balance is achieved when the peak of an excitatory postsynaptic potential (EPSP) is exactly at spike threshold, so that the slightest variation in excitation determines whether a spike is generated. Using simulations, we show that the optimal inhibitory postsynaptic conductance (IPSG) increases in amplitude and decay rate as synaptic excitation increases from 1 to 800 Hz. As further proposed by theory, we show that optimal IPSG parameters can be learned through anti-Hebbian rules. ..."

Model Type: Synapse

Model Concept(s): Homeostasis

Simulation Environment: NEURON

Implementer(s): Kim, Jae Kyoung [kimjack0 at kaist.ac.kr]

References:

Kim JK, Fiorillo CD. (2017). Theory of optimal balance predicts and explains the amplitude and decay time of synaptic inhibition. Nature communications. 8 [PubMed]


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