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The relationship between PSD-95 clustering and spine stability in vivo

Knott, Graham
Published in The Journal of neuroscience. 2014, vol. 34, no. 6, p. 2075-86
Abstract The appearance and disappearance of dendritic spines, accompanied by synapse formation and elimination may underlie the experience-dependent reorganization of cortical circuits. The exact temporal relationship between spine and synapse formation in vivo remains unclear, as does the extent to which synapse formation enhances the stability of newly formed spines and whether transient spines produce synapses. We used in utero electroporation of DsRedExpress- and eGFP-tagged postsynaptic density protein 95 (PSD-95) to investigate the relationship between spine and PSD stability in mouse neocortical L2/3 pyramidal cells in vivo. Similar to previous studies, spines and synapses appeared and disappeared, even in naive animals. Cytosolic spine volumes and PSD-95-eGFP levels in spines covaried over time, suggesting that the strength of many individual synapses continuously changes in the adult neocortex. The minority of newly formed spines acquired PSD-95-eGFP puncta. Spines that failed to acquire a PSD rarely survived for more than a day. Although PSD-95-eGFP accumulation was associated with increased spine lifetimes, most new spines with a PSD did not convert into persistent spines. This indicates that transient spines may serve to produce short-lived synaptic contacts. Persistent spines that were destined to disappear showed, on average, reduced PSD-95-eGFP levels well before the actual pruning event. Altogether, our data indicate that the PSD size relates to spine stability in vivo.
Keywords AnimalsCluster AnalysisDendritic Spines/chemistry/physiology/ultrastructureFemaleGuanylate Kinase/analysis/physiology/ultrastructureMaleMembrane Proteins/analysis/physiology/ultrastructureMiceMice, Inbred C57BLPregnancy
PMID: 24501349
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Research group Les circuits neuronaux dans le néocortex des mammifères (855)
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CANE, Michele et al. The relationship between PSD-95 clustering and spine stability in vivo. In: The Journal of neuroscience, 2014, vol. 34, n° 6, p. 2075-86. doi: 10.1523/JNEUROSCI.3353-13.2014 https://archive-ouverte.unige.ch/unige:44558

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Deposited on : 2015-01-06

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