Giulia Faini scite author profile

Giulia Faini

2Publications

82Citation Statements Received

164Citation Statements Given

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Affiliations

Institut de la Vision, Inserm, Institut du Cerveau

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Perineuronal nets control visual input via thalamic recruitment of cortical PV interneurons

Faini

Aguirre

Landi

et al. 2018

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In the neocortex, critical periods (CPs) of plasticity are closed following the accumulation of perineuronal nets (PNNs) around parvalbumin (PV)-positive inhibitory interneurons. However, how PNNs tune cortical function and plasticity is unknown. We found that PNNs modulated the gain of visual responses and γ-oscillations in the adult mouse visual cortex in vivo, consistent with increased interneuron function. Removal of PNNs in adult V1 did not affect GABAergic neurotransmission from PV cells, nor neuronal excitability in layer 4. Importantly, PNN degradation coupled to sensory input potentiated glutamatergic thalamic synapses selectively onto PV cells. In the absence of PNNs, increased thalamic PV-cell recruitment modulated feed-forward inhibition differently on PV cells and pyramidal neurons. These effects depended on visual input, as they were strongly attenuated by monocular deprivation in PNN-depleted adult mice. Thus, PNNs control visual processing and plasticity by selectively setting the strength of thalamic recruitment of PV cells.

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Reelin functions beyond neuronal migration: from synaptogenesis to network activity modulation

Faini

Bene

Albadri

2021

Current Opinion in Neurobiology

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Reelin, a glycoprotein of the extracellular matrix, has been the focus of several studies over the years, mostly for its role in cell migration. Here we report the role of this molecule and of its downstream pathways in post-mitotic neurons and how they contribute to neural circuit assembly, refinement and function. Accumulating evidence has pointed at a major role for Reelin in axonal guidance, synaptogenesis and dendritic spine formation. In particular new evidence points at a direct role in axonal targeting and refinement at the target site. In addition, recent advances highlight new functions of Reelin in the modulation of synaptic activity, plasticity and behavior and it directly regulates GABA receptors expression and stability. We discuss these findings in the context of neurodevelopmental disorders. Highlights Reelin signaling is required for axonal targeting and refinement at the target site. Reelin signaling regulates dendritogenesis and spine formation in mature neurons. Reelin modulates GABA receptors expression and stability, pre-and-post-synaptically. Reelin is important for hippocampal integrity, synaptic plasticity and behavior.

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Giulia Faini

Perineuronal nets control visual input via thalamic recruitment of cortical PV interneurons

Reelin functions beyond neuronal migration: from synaptogenesis to network activity modulation

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