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Literature DB >> 28951447

Experience-Dependent Synaptic Plasticity in V1 Occurs without Microglial CX3CR1.

Rachel W Schecter¹, Erin E Maher², Christina A Welsh³, Beth Stevens^3,4, Alev Erisir², Mark F Bear⁵.

Abstract

Brief monocular deprivation (MD) shifts ocular dominance and reduces the density of thalamic synapses in layer 4 of the mouse primary visual cortex (V1). We found that microglial lysosome content is also increased as a result of MD. Previous studies have shown that the microglial fractalkine receptor CX3CR1 is involved in synaptic development and hippocampal plasticity. We therefore tested the hypothesis that neuron-to-microglial communication via CX3CR1 is an essential component of visual cortical development and plasticity in male mice. Our data show that CX3CR1 is not required for normal development of V1 responses to visual stimulation, multiple forms of experience-dependent plasticity, or the synapse loss that accompanies MD in layer 4. By ruling out an essential role for fractalkine signaling, our study narrows the search for understanding how microglia respond to active synapse modification in the visual cortex.SIGNIFICANCE STATEMENT Microglia in the visual cortex respond to monocular deprivation with increased lysosome content, but signaling through the fractalkine receptor CX3CR1 is not an essential component in the mechanisms of visual cortical development or experience-dependent synaptic plasticity.

Entities: Gene Species

Keywords: microglia; ocular dominance plasticity; stimulus-selective response potentiation; synaptic plasticity; visual cortex

Mesh：

Substances：

Year: 2017 PMID： 28951447 PMCID： PMC5666579 DOI： 10.1523/JNEUROSCI.2679-16.2017

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

62 in total

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5. C1q and SRPX2 regulate microglia mediated synapse elimination during early development in the visual thalamus but not the visual cortex.

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