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Seasonal plasticity in the adult somatosensory cortex

Saikat Ray, Miao Li, Stefan Koch, Susanne Mueller, Philipp Boehm‐Sturm, Hong Wang, Michael Brecht, Robert K. Naumann

2020Proceedings of the National Academy of Sciences31 citationsDOIOpen Access PDF

Abstract

Their brain, and specifically their neocortex, shrinks in winter. Shrews are tactile hunters, and information from whiskers first reaches the somatosensory cortex layer 4, which exhibits a reduced width (-28%) in winter. Layer 4 width (+29%) and neuron number (+42%) increase the following summer. Activity patterns in the somatosensory cortex show a prominent reduction of touch-suppressed neurons in layer 4 (-55%), the most metabolically active layer. Loss of inhibitory gating occurs with a reduction in parvalbumin-positive interneurons, one of the most active neuronal subtypes and the main regulators of inhibition in layer 4. Thus, a reduction in neurons in layer 4 and particularly parvalbumin-positive interneurons may incur direct metabolic benefits. However, changes in cortical balance can also affect the threshold for detecting sensory stimuli and impact prey choice, as observed in wild shrews. Thus, seasonal neural adaptation can offer synergistic metabolic and behavioral benefits to the organism and offer insights on how neural systems show adaptive plasticity in response to ecological demands.

Topics & Concepts

Somatosensory systemNeuroscienceAdaptation (eye)BiologyNeuroplasticityCortex (anatomy)Cortical neuronsWhiskerChemistryPhysical chemistryNeural dynamics and brain functionBat Biology and Ecology StudiesFunctional Brain Connectivity Studies
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