Timing-dependent LTP and LTD in mouse primary visual cortex following different visual deprivation models

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Abstract

Visual deprivation during the critical period induces long-lasting changes in cortical circuitry by adaptively modifying neuro-Transmission and synaptic connectivity at synapses. Spike timing-dependent plasticity (STDP) is considered a strong candidate for experience-dependent changes. However, the visual deprivation forms that affect timing-dependent long-Term potentiation(LTP) and long-Term depression(LTD) remain unclear. Here, we demonstrated the temporal window changes of tLTP and tLTD, elicited by coincidental pre-And post-synaptic firing, following different modes of 6-day visual deprivation. Markedly broader temporal windows were found in robust tLTP and tLTD in the V1M of the deprived visual cortex in mice after 6-day MD and DE. The underlying mechanism for the changes seen with visual deprivation in juvenile mice using 6 days of dark exposure or monocular lid suture involves an increased fraction of NR2b-containing NMDAR and the consequent prolongation of NMDAR-mediated response duration. Moreover, a decrease in NR2A protein expression at the synapse is attributable to the reduction of the NR2A/2B ratio in the deprived cortex.

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Guo, Y., Zhang, W., Chen, X., Fu, J., Cheng, W., Song, D., … Zhao, K. (2017). Timing-dependent LTP and LTD in mouse primary visual cortex following different visual deprivation models. PLoS ONE, 12(5). https://doi.org/10.1371/journal.pone.0176603

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