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Modular microcircuit organization of the presubicular head-direction map

Giuseppe Balsamo, Eduardo Blanco-Hernández, Feng Liang, Robert K. Naumann, Stefano Coletta, Andrea Burgalossi, Patricia Preston‐Ferrer

2022Cell Reports17 citationsDOIOpen Access PDF

Abstract

Our internal sense of direction is thought to rely on the activity of head-direction (HD) neurons. We find that the mouse dorsal presubiculum (PreS), a key structure in the cortical representation of HD, displays a modular "patch-matrix" organization, which is conserved across species (including human). Calbindin-positive layer 2 neurons within the "matrix" form modular recurrent microcircuits, while inputs from the anterodorsal and laterodorsal thalamic nuclei are non-overlapping and target the "patch" and "matrix" compartments, respectively. The apical dendrites of identified HD cells are largely restricted within the "matrix," pointing to a non-random sampling of patterned inputs and to a precise structure-function architecture. Optogenetic perturbation of modular recurrent microcircuits results in a drastic tonic suppression of firing only in a subpopulation of HD neurons. Altogether, our data reveal a modular microcircuit organization of the PreS HD map and point to the existence of cell-type-specific microcircuits that support the cortical HD representation.

Topics & Concepts

Head (geology)Modular designComputer scienceNeuroscienceBiologyProgramming languagePaleontologyMemory and Neural MechanismsAxon Guidance and Neuronal SignalingNeuroscience and Neuropharmacology Research
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