Search results for "CORTICOGENESIS"

showing 3 items of 13 documents

GABAergic projections from the subplate to Cajal-Retzius cells in the neocortex.

2011

Subplate neurons and Cajal-Retzius cells play an important role in the corticogenesis. Despite morphological evidence, the question whether subplate neurons innervate Cajal-Retzius cells has not been studied yet. We report that electrical stimulation in the subplate resulted in evoked GABAergic inhibitory postsynaptic currents (eIPSCs) in Cajal-Retzius cells. The eIPSC latency showed minor variability and amounted to approximately 4 ms, suggesting the monosynaptic connection. During the first postnatal week: (i) eIPSC amplitude increased, (ii) eIPSC kinetics sped up, (iii) the size of readily releasable pool increased, and (iv) γ-aminobutyric acid release probability decreased. We conclude …

Patch-Clamp TechniquesPostsynaptic CurrentNeocortexBiologyInhibitory postsynaptic potentialSynaptic TransmissionMiceSubplateNeural PathwaysmedicineAnimalsgamma-Aminobutyric AcidNeuronsNeocortexGeneral NeuroscienceExcitatory Postsynaptic PotentialsElectric StimulationElectrophysiological PhenomenaMice Inbred C57BLCorticogenesisElectrophysiologymedicine.anatomical_structurenervous systemAnimals NewbornCerebral cortexData Interpretation StatisticalSynapsesGABAergicNeuroscienceNeuroreport
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Cajal–Retzius and Subplate Cells

2013

The laminar and columnar organization of the mature cerebral cortex is determined by a variety of early developmental processes. Two distinct populations of early generated preplate neurons play key roles in corticogenesis. Cajal–Retzius neurons, located in the marginal zone (later layer I), control the formation of neocortical layers by releasing the extracellular matrix protein reelin, which serves as a guiding signal for migrating neurons. Subplate neurons in the lower neocortical layer play an active role in transient synaptic circuits and influence early cortical plasticity and the maturation of the columnar architecture. Both neuronal cell populations serve as transient synaptic targe…

biologyCellMarginal zoneExtracellular matrixCorticogenesismedicine.anatomical_structurenervous systemCerebral cortexSubplateNeuroplasticitymedicinebiology.proteinReelinNeuroscience
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Stick around: Cell–Cell Adhesion Molecules during Neocortical Development

2021

The neocortex is an exquisitely organized structure achieved through complex cellular processes from the generation of neural cells to their integration into cortical circuits after complex migration processes. During this long journey, neural cells need to establish and release adhesive interactions through cell surface receptors known as cell adhesion molecules (CAMs). Several types of CAMs have been described regulating different aspects of neurodevelopment. Whereas some of them mediate interactions with the extracellular matrix, others allow contact with additional cells. In this review, we will focus on the role of two important families of cell–cell adhesion molecules (C-CAMs), classi…

neocortical developmentOrganogenesisSynaptogenesisneuronsNeocortexReviewExtracellular matrixradial glia cellsaxon targetingCell surface receptorNectinmedicineAnimalsHumansCAMslcsh:QH301-705.5nectinsMammalsneuronal migrationsynaptogenesisNeocortexCell adhesion moleculeChemistryCadherinneurodevelopmental disordersclassical cadherinsGeneral MedicineCorticogenesismedicine.anatomical_structurelcsh:Biology (General)SynapsesCell Adhesion MoleculesNeuroscienceCells
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