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Higher-order thalamic input to cortex selectively conveys state information

Garrett T. Neske, Jessica A. Cardin

2025Cell Reports8 citationsDOIOpen Access PDF

Abstract

Communication among neocortical areas is largely thought to be mediated by long-range synaptic interactions between cortical neurons, with the thalamus providing only an initial relay of information from the sensory periphery. Higher-order thalamic nuclei receive strong synaptic inputs from the cortex and send robust projections back to other cortical areas, providing a distinct and potentially critical route for corticocortical communication. However, the relative contributions of corticocortical and thalamocortical inputs to higher-order cortical function remain unclear. Using imaging of neurons and axon terminals in combination with optogenetic manipulations, we find that the higher-order visual thalamus of mice has a unique impact on the posterior medial visual cortex (PM). Whereas corticocortical projections from lower cortical areas convey robust visual information to PM, higher-order thalamocortical projections convey information about global arousal state. Together, these findings suggest a key role for the higher-order thalamus in providing contextual signals that may flexibly modulate cortical sensory processing.

Topics & Concepts

NeuroscienceCortex (anatomy)Order (exchange)ThalamusState (computer science)Computer scienceChemistryBiologyBusinessFinanceAlgorithmNeural dynamics and brain functionVisual perception and processing mechanismsPhotoreceptor and optogenetics research
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