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Place cells are nonrandomly clustered by field location in <scp>CA1</scp> hippocampus

Hannah S. Wirtshafter, John F. Disterhoft

2022Hippocampus11 citationsDOIOpen Access PDF

Abstract

A challenge in both modern and historic neuroscience has been achieving an understanding of neuron circuits, and determining the computational and organizational principles that underlie these circuits. Deeper understanding of the organization of brain circuits and cell types, including in the hippocampus, is required for advances in behavioral and cognitive neuroscience, as well as for understanding principles governing brain development and evolution. In this manuscript, we pioneer a new method to analyze the spatial clustering of active neurons in the hippocampus. We use calcium imaging and a rewarded navigation task to record from 100 s of place cells in the CA1 of freely moving rats. We then use statistical techniques developed for and in widespread use in geographic mapping studies, global Moran's I, and local Moran's I to demonstrate that cells that code for similar spatial locations tend to form small spatial clusters. We present evidence that this clustering is not the result of artifacts from calcium imaging, and show that these clusters are primarily formed by cells that have place fields around previously rewarded locations. We go on to show that, although cells with similar place fields tend to form clusters, there is no obvious topographic mapping of environmental location onto the hippocampus, such as seen in the visual cortex. Insights into hippocampal organization, as in this study, can elucidate mechanisms underlying motivational behaviors, spatial navigation, and memory formation.

Topics & Concepts

NeuroscienceHippocampusHippocampal formationSpatial memorySpatial cognitionCognitive mapCluster analysisPlace cellCalcium imagingPsychologyCognitionComputer scienceArtificial intelligenceWorking memoryChemistryCalciumOrganic chemistryMemory and Neural MechanismsNeuroscience and Neuropharmacology ResearchOlfactory and Sensory Function Studies
Place cells are nonrandomly clustered by field location in <scp>CA1</scp> hippocampus | Litcius