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Laminar Subnetworks of Response Suppression in Macaque Primary Visual Cortex

Tian Wang, Yang Li, Guanzhong Yang, Weifeng Dai, Yi Yang, Chuanliang Han, Xingyun Wang, Yange Zhang, Dajun Xing

2020Journal of Neuroscience47 citationsDOIOpen Access PDF

Abstract

Cortical inhibition plays an important role in information processing in the brain. However, the mechanisms by which inhibition and excitation are coordinated to generate functions in the six layers of the cortex remain unclear. Here, we measured laminar-specific responses to stimulus orientations in primary visual cortex (V1) of awake monkeys (male, Macaca mulatta). We distinguished inhibitory effects (suppression) from excitation, by taking advantage of the separability of excitation and inhibition in the orientation and time domains. We found two distinct types of suppression governing different layers. Fast suppression (FS) was strongest in input layers (4C and 6), and slow suppression (SS) was 3 times stronger in output layers (2/3 and 5). Interestingly, the two types of suppression were correlated with different functional properties measured with drifting gratings. FS was primarily correlated with orientation selectivity in input layers (r = 20.65, p , 10 29 ), whereas SS was primarily correlated with surround suppression in output layers (r = 0.61, p , 10 24 ). The earliest SS in layer 1 indicates the origin of cortical feedback for SS, in contrast to the feedforward/recurrent origin of FS. Our results reveal two V1 laminar subnetworks with different response suppression that may provide a general framework for laminar processing in other sensory cortices.

Topics & Concepts

Visual cortexMacaqueInhibitory postsynaptic potentialLaminar flowNeuroscienceSensory systemStimulus (psychology)ChemistryCerebral cortexPhysicsBiophysicsBiologyPsychologyThermodynamicsPsychotherapistNeural dynamics and brain functionVisual perception and processing mechanismsNeurobiology and Insect Physiology Research
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