β-adrenergic receptors modulate CA1 population coding and synaptic plasticity during cumulative spatial memory formation and updating
Ninad Shendye, Josué Haubrich, Jens P. Weber, Hardy Hagena, Denise Manahan-Vaughan

TL;DR
This study shows how brain cells in mice learn and update spatial memories, and how a specific brain receptor helps in this process.
Contribution
The study reveals how β-adrenergic receptors modulate hippocampal CA1 population activity during cumulative spatial memory formation.
Findings
Pharmacological β-AR antagonism impaired spatial learning and disrupted CA1 neuronal ensemble dynamics.
β-AR activity is critical for synaptic plasticity, population bursts, and functional connectivity during spatial memory encoding.
Noradrenaline via β-AR supports memory by influencing both neuronal and network-level dynamics.
Abstract
Hippocampal neuronal ensembles are likely to support the acquisition, stabilization and updating of spatial experience. Spatial learning is typically cumulative, but little is known about how neuronal ensembles are manifested during this process. Here, we used wide-field Ca2+-imaging and in vivo electrophysiology to monitor CA1 pyramidal cells and synapses, respectively, during cumulative item-place learning in adult male CBA/CaOlaHsd mice. In controls, we observed refinement in neuronal activation patterns along with reduced reactivation in response to novel item-place configuration. Synaptic plasticity responses, place cell-like properties, population burst activity, and functional connectivity were consistent with the encoding and updating of item-place memory. Noradrenaline activity via β-adrenergic receptors (β-AR) is a critical modulator of CA1 function, but its role in regulating…
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Taxonomy
TopicsMemory and Neural Mechanisms · Neuroscience and Neuropharmacology Research · Neural dynamics and brain function
