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Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
by Rostaing, Philippe , Charrier, Cecile , Triller, Antoine , Gemin, Olivier , Serna, Pablo , Assendorp, Nora , Fossati, Matteo
in Calcium channels (voltage-gated) / Calcium signalling / Computational neuroscience / Cortex (somatosensory) / Dendritic spines / Electron microscopy / Neuroscience / Population genetics / Pyramidal cells / Sensory neurons / Synaptic plasticity / Ultrastructure
2020
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Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
by Rostaing, Philippe , Charrier, Cecile , Triller, Antoine , Gemin, Olivier , Serna, Pablo , Assendorp, Nora , Fossati, Matteo
in Calcium channels (voltage-gated) / Calcium signalling / Computational neuroscience / Cortex (somatosensory) / Dendritic spines / Electron microscopy / Neuroscience / Population genetics / Pyramidal cells / Sensory neurons / Synaptic plasticity / Ultrastructure
2020
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Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
by Rostaing, Philippe , Charrier, Cecile , Triller, Antoine , Gemin, Olivier , Serna, Pablo , Assendorp, Nora , Fossati, Matteo
in Calcium channels (voltage-gated) / Calcium signalling / Computational neuroscience / Cortex (somatosensory) / Dendritic spines / Electron microscopy / Neuroscience / Population genetics / Pyramidal cells / Sensory neurons / Synaptic plasticity / Ultrastructure
2020

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Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex
Paper

Morphologically constrained modeling of spinous inhibition in the somato-sensory cortex

Rostaing, Philippe,
Charrier, Cecile,
Triller, Antoine,
Gemin, Olivier,
Serna, Pablo,
Assendorp, Nora,
Fossati, Matteo
2020
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Overview
Pyramidal neurons are covered by thousands of dendritic spines receiving excitatory synaptic inputs. The ultrastructure of dendritic spines shapes signal compartmentalization but ultrastructural diversity is rarely taken into account in computational models of synaptic integration. Here, we developed a 3D correlative light-electron microscopy (3D-CLEM) approach allowing the analysis of specific populations of synapses in genetically defined neuronal types in intact brain circuits. We used it to reconstruct segments of basal dendrites of layer 2/3 pyramidal neurons of adult mouse somatosensory cortex and quantify spine ultrastructural diversity. We found that 10% of spines were dually-innervated and 38% of inhibitory synapses localize to spines. Using our morphometric data to constrain a model of synaptic signal compartmentalization, we assessed the impact of spinous versus dendritic shaft inhibition. Our results indicate that spinous inhibition is locally more efficient than shaft inhibition and that it can decouple voltage and calcium signaling, potentially impacting synaptic plasticity. Competing Interest Statement The authors have declared no competing interest.
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Publisher
Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory
Subject

Calcium channels (voltage-gated)

/ Calcium signalling

/ Computational neuroscience

/ Cortex (somatosensory)

/ Dendritic spines

/ Electron microscopy

/ Neuroscience

/ Population genetics

/ Pyramidal cells

/ Sensory neurons

/ Synaptic plasticity

/ Ultrastructure

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