Context-dependent signaling of coincident auditory and visual events in primary visual cortex

Context-dependent signaling of coincident auditory and visual events in primary visual cortex

Detecting rapid, coincident changes across sensory modalities is essential for recognition of sudden threats or events. Using two-photon calcium imaging in identified cell types in awake, head-fixed mice, we show that, among the basic features of a sound envelope, loud sound onsets are a dominant fe...

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Veröffentlicht in:eLife 2019-05, Vol.8
Hauptverfasser: Deneux, Thomas, Harrell, Evan R, Kempf, Alexandre, Ceballo, Sebastian, Filipchuk, Anton, Bathellier, Brice
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic Stimulation
Animals
Auditory cortex
Auditory Cortex - physiology
Calcium imaging
cell types
Cellular signal transduction
chemogenetics
Cognitive Sciences
Cortex (auditory)
Cortex (somatosensory)
Cross-modal
Evoked Potentials, Visual
Hypotheses
Information management
Interneurons
Interneurons - physiology
Life Sciences
Mice
multisensory processing
Neurobiology
Neuroimaging
Neurons
Neurons and Cognition
Neuroscience
Neurosciences
Observations
Photic Stimulation
Physiological aspects
Psychology and behavior
Sensorimotor integration
Sensory integration
Sound
Visual cortex
Visual Cortex - physiology
Visual Perception - physiology
Visual stimuli
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Beschreibung
Zusammenfassung:Detecting rapid, coincident changes across sensory modalities is essential for recognition of sudden threats or events. Using two-photon calcium imaging in identified cell types in awake, head-fixed mice, we show that, among the basic features of a sound envelope, loud sound onsets are a dominant feature coded by the auditory cortex neurons projecting to primary visual cortex (V1). In V1, a small number of layer 1 interneurons gates this cross-modal information flow in a context-dependent manner. In dark conditions, auditory cortex inputs lead to suppression of the V1 population. However, when sound input coincides with a visual stimulus, visual responses are boosted in V1, most strongly after loud sound onsets. Thus, a dynamic, asymmetric circuit connecting AC and V1 contributes to the encoding of visual events that are coincident with sounds.
ISSN:2050-084X
2050-084X
DOI:10.7554/elife.44006