Search results for "Ca3 pyramidal neuron"

showing 2 items of 2 documents

Coincident glutamatergic depolarizations enhance GABAA receptor-dependent Cl- influx in mature and suppress Cl- efflux in immature neurons.

2021

The impact of GABAergic transmission on neuronal excitability depends on the Cl--gradient across membranes. However, the Cl--fluxes through GABAA receptors alter the intracellular Cl- concentration ([Cl-]i) and in turn attenuate GABAergic responses, a process termed ionic plasticity. Recently it has been shown that coincident glutamatergic inputs significantly affect ionic plasticity. Yet how the [Cl-]i changes depend on the properties of glutamatergic inputs and their spatiotemporal relation to GABAergic stimuli is unknown. To investigate this issue, we used compartmental biophysical models of Cl- dynamics simulating either a simple ball-and-stick topology or a reconstructed CA3 neuron. Th…

Databases FactualPhysiologyNervous SystemBiochemistrySynaptic TransmissionAnimal CellsMedicine and Health SciencesCl effluxBiology (General)Receptorgamma-Aminobutyric AcidNeuronsNeuronal PlasticityEcologyNeuronal MorphologyGABAA receptorChemistryPyramidal CellsNeurochemistryNeurotransmittersCA3 Region HippocampalElectrophysiologymedicine.anatomical_structureComputational Theory and MathematicsModeling and SimulationGABAergicAnatomyCellular TypesReceptor PhysiologyIntracellularResearch ArticleCell PhysiologyQH301-705.5Models NeurologicalNeurophysiologyMembrane PotentialCellular and Molecular NeuroscienceGlutamatergicChloridesGeneticsmedicineAnimalsMolecular BiologyEcology Evolution Behavior and SystematicsBiology and Life SciencesComputational BiologyCell BiologyNeuronal DendritesReceptors GABA-ACellular NeuroscienceSynapsesCa3 pyramidal neuronDepolarizationNeuronNeuroscienceNeurosciencePLoS Computational Biology
researchProduct

Identification of Synaptic Integration Mode in CA3 Pyramidal Neuron Model

2019

International audience; A morphologically realistic and anisotropic model of CA3 pyramidal neuron was developed to determine the synaptic integration modes the neuron is able to perform. Linearity and nonlinearity were identified in different synaptic locations with varying active mechanisms such as the presence of ionic channels in the dendritic arbor and the types of receptors in the synapse. Quantification of synaptic integration was performed using paired-pulse stimulation protocol and subthreshold input/output (sI/O) transformation. Results show that the mode of synaptic integration is location-dependent while the linearity or nonlinearity in the integration is mainly influenced by the…

MorphologyShaftsionic channelsResistancereceptorstwo-layer networksynaptic integration modesimple CA3 pyramidal neuronSynapselinear integrationdendritic arbormedicinesynaptic locationsCA3 pyramidal neuron model[SDV.IB] Life Sciences [q-bio]/BioengineeringNeuronsbiomembrane transportcomputational powerPhysicssubthreshold input-output transformationSynaptic integrationSubthreshold conductionmorphologically realistic modelMode (statistics)Linearitypaired-pulse stimulation protocolactive channelsanisotropic modelNonlinear systemmedicine.anatomical_structurenervous systemsublinear integrationCa3 pyramidal neuronbioelectric phenomena[SDV.IB]Life Sciences [q-bio]/BioengineeringAction potentialsNeuronneurophysiologysupralinear integrationNeuroscienceNeckProtocols2019 9th International IEEE/EMBS Conference on Neural Engineering (NER)
researchProduct