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Inhibitory top-down projections from zona incerta mediate neocortical memory

Anna Schroeder, M. Belén Pardi, Joram Keijser, Tamas Dalmay, Ayelén I. Groisman, Erin M. Schuman, Henning Sprekeler, Johannes J. Letzkus

2023Neuron39 citationsDOIOpen Access PDF

Abstract

Top-down projections convey a family of signals encoding previous experiences and current aims to the sensory neocortex, where they converge with external bottom-up information to enable perception and memory. Whereas top-down control has been attributed to excitatory pathways, the existence, connectivity, and information content of inhibitory top-down projections remain elusive. Here, we combine synaptic two-photon calcium imaging, circuit mapping, cortex-dependent learning, and chemogenetics in mice to identify GABAergic afferents from the subthalamic zona incerta as a major source of top-down input to the neocortex. Incertocortical transmission undergoes robust plasticity during learning that improves information transfer and mediates behavioral memory. Unlike excitatory pathways, incertocortical afferents form a disinhibitory circuit that encodes learned top-down relevance in a bidirectional manner where the rapid appearance of negative responses serves as the main driver of changes in stimulus representation. Our results therefore reveal the distinctive contribution of long-range (dis)inhibitory afferents to the computational flexibility of neocortical circuits.

Topics & Concepts

NeocortexNeuroscienceInhibitory postsynaptic potentialExcitatory postsynaptic potentialPsychologySensory systemNeuroscience and Neuropharmacology ResearchNeural dynamics and brain functionMemory and Neural Mechanisms
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