Litcius/Paper detail

Syngap1 promotes cognitive function through regulation of cortical sensorimotor dynamics

Thomas Vaissière, Sheldon D. Michaelson, Thomas K. Creson, Jessie Goins, Daniel Fürth, Diána Balázsfi, Camilo Rojas, Randall M. Golovin, Konstantinos Meletis, Courtney A. Miller, Daniel H. O’Connor, Lorenzo Fontolan, Gavin Rumbaugh

2025Nature Communications11 citationsDOIOpen Access PDF

Abstract

Perception, a cognitive construct, emerges through sensorimotor integration (SMI). The genetic mechanisms that shape SMI required for perception are unknown. Here, we demonstrate in mice that expression of the autism/intellectual disability gene, Syngap1, in cortical excitatory neurons is required for the formation of somatomotor networks that promote SMI-mediated perception. Cortical Syngap1 expression was necessary and sufficient for setting tactile sensitivity, sustaining tactile object exploration, and promoting tactile learning. Mice with deficient Syngap1 expression exhibited impaired neural dynamics induced by exploratory touches within a cortical-thalamic network that promotes attention and perception. Disrupted neuronal dynamics were associated with circuit-specific long-range synaptic connectivity abnormalities. Our data support a model where autonomous Syngap1 expression in cortical excitatory neurons promotes cognitive abilities through the assembly of long-range circuits that integrate temporally-overlapping sensory and motor signals, a process that promotes perception and attention. These data provide systems-level insights into the robust association between Syngap1 expression and cognitive ability. Whether and how highly penetrant NDD (neurodevelopmental disorder) genes such as Syngap1 regulate sensorimotor integration are not fully understood. This study shows that Syngap1 expression in cortical projection neurons promotes cognitive abilities in mice through forming distributed networks that integrate sensory information with motor signals, a dynamic process required for perception and attention.

Topics & Concepts

NeuroscienceCognitionFunction (biology)Dynamics (music)Brain functionComputer sciencePsychologyBiologyEvolutionary biologyPedagogyZebrafish Biomedical Research ApplicationsNeuroscience and Neuropharmacology ResearchMemory and Neural Mechanisms
Syngap1 promotes cognitive function through regulation of cortical sensorimotor dynamics | Litcius