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Cortical circuits for cross-modal generalization

Maëlle Guyoton, Giulio Matteucci, Charlie G. Foucher, Matthew P. Getz, Julijana Gjorgjieva, Sami El‐Boustani

2025Nature Communications13 citationsDOIOpen Access PDF

Abstract

Adapting goal-directed behaviors to changing sensory conditions is a fundamental aspect of intelligence. The brain uses abstract representations of the environment to generalize learned associations across sensory modalities. The circuit organization that mediates such cross-modal generalizations remains, however, unknown. Here, we demonstrate that mice can bidirectionally generalize sensorimotor task rules between touch and vision by using abstract representations of peri-personal space within the cortex. Using large-scale mapping in the dorsal cortex at single-cell resolution, we discovered multimodal neurons with congruent spatial representations within multiple associative areas of the dorsal and ventral streams. Optogenetic sensory substitution and systematic silencing of these associative areas revealed that a single area in the dorsal stream is necessary and sufficient for cross-modal generalization. Our results identify and comprehensively describe a cortical circuit organization that underlies an essential cognitive function, providing a structural and functional basis for abstract reasoning in the mammalian brain.

Topics & Concepts

NeuroscienceAssociative propertySensory systemGeneralizationComputer scienceStimulus modalityOptogeneticsDorsumPsychologyBiologyAnatomyMathematicsMathematical analysisPure mathematicsNeural dynamics and brain functionMultisensory perception and integrationNeurobiology and Insect Physiology Research
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