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Abstract

The dorsal lateral geniculate nucleus (dLGN) has long been held to act as a basic relay for visual information traveling from the retina to cortical areas, but recent findings suggest largely underestimated functional plasticity of dLGN principal cells. However, the cellular mechanisms supporting these changes have not been fully explored. Here, we report a protocol to induce long-term potentiation of intrinsic neuronal excitability (LTP-IE) in dorsal dLGN relay cells from acute brain slices of young rats. Intrinsic plasticity is generally induced in parallel with synaptic plasticity. However, in dLGN neurons, LTP-IE is reliably induced by spiking activity at a frequency of 40 Hz for 10 min. LTP-IE in dLGN relay neurons is long-lasting as it can be followed up to 40 min after the induction protocol. In conclusion, the results of this study provide the first evidence for the induction of intrinsic plasticity in dLGN relay cells, thus further pointing to the role of thalamic neurons in activity-dependent visual plasticity.

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Dorsal Lateral Geniculate NucleusDLGNIntrinsic Neuronal ExcitabilityLong term PotentiationLTP IESynaptic PlasticityRelay CellsAcute Brain SlicesYoung RatsSpiking ActivityFrequency 40 HzActivity dependent Visual Plasticity

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