Hippocampal CA3 Pyramidal Neurons (Expanded) <table class="infobox infobox-cell">
<tr>
<th class="infobox-header" colspan="2">Hippocampal CA3 Pyramidal Neurons (Expanded)</th>
</tr>
<tr>
<td class="label">Taxonomy</td>
<td>ID</td>
</tr>
<tr>
<td class="label">Cell Ontology (CL)</td>
<td>[CL:0000598](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)</td>
</tr>
<tr>
<td class="label">Database</td>
<td>ID</td>
</tr>
<tr>
<td class="label">Cell Ontology</td>
<td>[CL:0000598](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)</td>
</tr>
</table>
Introduction Hippocampal Ca3 Pyramidal Neurons (Expanded) is an important component in the neurobiology of neurodegenerative diseases. This page provides detailed information about its structure, function, and role in disease processes.
Overview
...
Hippocampal CA3 Pyramidal Neurons (Expanded) <table class="infobox infobox-cell">
<tr>
<th class="infobox-header" colspan="2">Hippocampal CA3 Pyramidal Neurons (Expanded)</th>
</tr>
<tr>
<td class="label">Taxonomy</td>
<td>ID</td>
</tr>
<tr>
<td class="label">Cell Ontology (CL)</td>
<td>[CL:0000598](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)</td>
</tr>
<tr>
<td class="label">Database</td>
<td>ID</td>
</tr>
<tr>
<td class="label">Cell Ontology</td>
<td>[CL:0000598](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)</td>
</tr>
</table>
Introduction Hippocampal Ca3 Pyramidal Neurons (Expanded) is an important component in the neurobiology of neurodegenerative diseases. This page provides detailed information about its structure, function, and role in disease processes.
Overview
Mermaid diagram (expand to render)
Hippocampal CA3 pyramidal neurons form the computational core of the hippocampal formation, characterized by their extensive recurrent collateral system that enables auto-associative memory storage and pattern completion. These neurons receive direct input from the dentate gyrus via mossy fibers and project to CA1 via Schaffer collaterals, creating the canonical trisynaptic circuit essential for episodic memory formation. [@keverne2019]
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Multi-Taxonomy Classification
Taxonomy Database Cross-References
Morphology & Electrophysiology
Morphology : pyramidal neuron (source: Cell Ontology)Morphology can be inferred from Cell Ontology classification
PanglaoDB Marker Cross-References
External Database Links
[Cell Ontology (CL:0000598)](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)
[OBO Foundry (CL:0000598)](http://purl.obolibrary.org/obo/CL_0000598)
[Allen Brain Cell Atlas](https://portal.brain-map.org/atlases-and-data/bkp/abc-atlas)
[CellxGene Census](https://cellxgene.cziscience.com/)
[Human Cell Atlas](https://www.humancellatlas.org/)
[PanglaoDB](https://panglaodb.se/)
Taxonomy & Classification
PanglaoDB Marker Cross-References
External Database Links
[Cell Ontology (CL:0000598)](https://www.ebi.ac.uk/ols4/ontologies/cl/classes/http%253A%252F%252Fpurl.obolibrary.org%252Fobo%252FCL_0000598)
[OBO Foundry (CL:0000598)](http://purl.obolibrary.org/obo/CL_0000598)
[Allen Brain Cell Atlas](https://portal.brain-map.org/atlases-and-data/bkp/abc-atlas)
[CellxGene Census](https://cellxgene.cziscience.com/)
[PanglaoDB](https://panglaodb.se/)
Morphology
Cellular Characteristics
Cell Body : Large pyramidal soma (25-35 μm diameter)Apical Dendrite : Long, thick apical dendrite extending to stratum lacunosum-moleculareBasal Dendrites : Extensive basal dendritic tree in stratum oriensAxon : Mossy fiber output to CA3 collaterals and CA1 Schaffer collateralsRegional Organization
CA3a : Proximal to CA2, proximal dendritic targetsCA3b : Mid-CA3, largest cell bodiesCA3c : Distal near CA1, embedded in hilusMolecular Markers
CA3-specific markers :mGluR1 (metabotropic glutamate receptor)
Zif268 (Egr1)
Generic pyramidal markers :CaMKIIα
Neurogranin
MAP2
Neurotransmitter phenotype :Glutamatergic (VGLUT1/3)
Physiology
Electrophysiological Properties
Resting membrane potential : -65 to -70 mVInput resistance : Higher than CA1 (~100 MΩ)Firing properties : Burst firing, frequency adaptationCalcium dynamics : Prominent dendritic calcium spikesRecurrent Collateral System The defining feature of CA3: [@yassa2011]
CA3→CA3 recurrent collaterals : Excitatory feedbackAuto-associative network : Enables pattern completionCapacity : Stores ~10,000 patternsPlasticity : LTP at recurrent synapsesSynaptic Properties
Mossy fiber input : Powerful, facilitating synapsesSchaffer collateral output : To CA1 pyramidal cellsInhibitory input : From local interneuronsModulatory input : Cholinergic, GABAergicCircuit-Level Function
Mossy Fibers (DG→CA3) : Direct excitatory input from dentate gyrusSchaffer Collaterals (CA3→CA3) : Recurrent excitatory connectionsCommissural Input : From contralateral CA3Entorhinal Input : Direct temporoammonic pathSeptal Cholinergic : Modulation of plasticity
Output Pathways
Schaffer Collaterals (CA3→CA1) : Major output to CA1CA3 Recurrent Collaterals : Local excitationMossy Fiber Collaterals : Local feedbackSubcortical Projections : To septum, hypothalamus
Pattern separation : Dentate-CA3 circuitPattern completion : Recurrent collateral functionEpisodic memory : Contextual associationsSpatial navigation : Place field propertiesDisease Vulnerability
Neurodegenerative Disorders
Alzheimer's Disease
CA3 pyramidal cell loss in AD
Early dysfunction in memory circuits
Mossy fiber pathway degeneration
Contributes to episodic memory failure
Parkinson's Disease
Hippocampal CA3 involvement in PD dementia
Lewy body pathology in hippocampus
Memory consolidation deficits
Temporal Lobe Epilepsy
CA3 vulnerability : Selective cell lossMossy fiber sprouting : Aberrant connectivityAmmon's horn sclerosis : CA3 and CA1Hyperexcitability : Recurrent circuitsSchizophrenia
CA3 connectivity alterations
NMDA receptor dysfunction
GABAergic interneuron changes
Memory processing deficits
Neurodevelopmental Disorders
Autism : Altered CA3 circuit formationIntellectual Disability : Developmental abnormalitiesDown Syndrome : DSCR1 overexpression effectsTranscriptomic Profile Single-cell transcriptomics reveals: [@nakazawa2004]
CA3-specific gene expression : mGluR1, Zif268Subpopulation heterogeneity : Along proximal-distal axisActivity-dependent genes : Immediate early responsesDisease-specific signatures Therapeutic Implications
Drug Targets
mGluR1/5 modulators : Target CA3 plasticityNMDA receptor agents : Memory enhancementAnti-epileptic drugs : Reduce hyperexcitabilityNeuroprotective compounds : Prevent cell lossGene Therapy Approaches
BDNF/NGF delivery : Support neuronal survivalmGluR modulation : Future therapeutic potentialSynaptic plasticity enhancers Research Models
Organotypic slices : CA3 circuit studiesIn vitro models : Epilepsy, ADOptogenetic tools : Circuit manipulationResearch Directions
Circuit reconstruction : ConnectomicsPattern completion studies : Behavioral paradigmsMemory engram research : CA3 roleDisease modeling : Patient-derived neuronsSee Also
[Hippocampus](/brain-regions/hippocampus)
[CA1 Pyramidal Neurons
[CA2 Pyramidal Neurons](/cell-types/ca2-pyramidal-neurons)
[Dentate Gyrus](/brain-regions/dentate-gyrus)
Mossy Fibers](/cell-types/ca1-pyramidal-neurons
--ca2-pyramidal-neurons
--dentate-gyrus
--mossy-fibers)
[Entorhinal Cortex](/brain-regions/entorhinal-cortex)
[Alzheimer's Disease](/diseases/alzheimers-disease)
[Parkinson's Disease](/diseases/parkinsons-disease)
[Temporal Lobe Epilepsy](/diseases/temporal-lobe-epilepsy)
Memory Consolidation
External Links
[Allen Brain Atlas - Hippocampus](https://portal.brain-map.org/)
[CA3 Circuit - Neuroscience](https://www.neuroscience.com)
[Epilepsy Research - NINDS](https://www.ninds.nih.gov/)
Background The study of Hippocampal Ca3 Pyramidal Neurons (Expanded) has evolved significantly over the past decades. Research in this area has revealed important insights into the underlying mechanisms of neurodegeneration and continues to drive therapeutic development.
Historical context and key discoveries in this field have shaped our current understanding and will continue to guide future research directions.
Disease Vulnerability
Alzheimer's Disease
Early tau pathology : CA3 is affected early in AD progressionMemory circuit disruption : Recurrent collaterals vulnerable to amyloid toxicityPlace cell dysfunction : Grid cell interactions impairedClinical correlations : CA3 atrophy correlates with episodic memory deficitsParkinson's Disease
Cognitive deficits : CA3 dysfunction contributes to executive dysfunctionOlfactory-hippocampal circuit : Early olfactory deficits connect to CA3Dopaminergic modulation : Loss of hippocampal dopamine affects CA3 plasticityTemporal Lobe Epilepsy
Aberrant mossy fiber sprouting : Pathological recurrent connectionsHyperexcitability : CA3 is highly susceptible to seizure generationPattern separation deficits : Cannot differentiate similar memoriesTransient Epile Amnestic Syndrome
CA3 vulnerability : Selective CA3 dysfunction in TIATherapeutic Implications
Memory Enhancement
Deep brain stimulation : CA3 as potential targetMemory prosthesis : Pattern completion stimulationPharmacological : mGluR1/5 modulatorsEpilepsy Treatment
Anti-epileptic drugs : Target CA3 hyper excitabilityMossy fiber sprouting inhibition : Prevent pathological plasticityGene therapy : Channelopathies targetingResearch Directions
Circuit Mapping
Optogenetic mapping : CA3 subregion connectivityConnectomics : Whole-circuit reconstructionSingle-cell sequencing : CA3 neuronal diversityDisease Mechanisms
Tau propagation : Understanding spread in CA3Amyloid interactions : Synaptic dysfunction mechanismsNeurogenesis : Adult hippocampal neurogenesis in CA3References Show full description