Neuron
Volume 65, Issue 1, 14 January 2010, Pages 107-121
Journal home page for Neuron

Article
Synaptic and Network Mechanisms of Sparse and Reliable Visual Cortical Activity during Nonclassical Receptive Field Stimulation

https://doi.org/10.1016/j.neuron.2009.12.005Get rights and content
Under an Elsevier user license
open archive

Summary

During natural vision, the entire visual field is stimulated by images rich in spatiotemporal structure. Although many visual system studies restrict stimuli to the classical receptive field (CRF), it is known that costimulation of the CRF and the surrounding nonclassical receptive field (nCRF) increases neuronal response sparseness. The cellular and network mechanisms underlying increased response sparseness remain largely unexplored. Here we show that combined CRF + nCRF stimulation increases the sparseness, reliability, and precision of spiking and membrane potential responses in classical regular spiking (RSC) pyramidal neurons of cat primary visual cortex. Conversely, fast-spiking interneurons exhibit increased activity and decreased selectivity during CRF + nCRF stimulation. The increased sparseness and reliability of RSC neuron spiking is associated with increased inhibitory barrages and narrower visually evoked synaptic potentials. Our experimental observations were replicated with a simple computational model, suggesting that network interactions among neuronal subtypes ultimately sharpen recurrent excitation, producing specific and reliable visual responses.

Highlights

► Wide-field stimulation increases pyramidal neuron selectivity and reliability ► Wide-field stimulation activates fast spiking (FS) interneurons ► Pyramidal neuron subtypes are differentially engaged by wide-field stimulation ► Increased inhibition effectively sharpens recurrent excitation in the network

SYSNEURO
SYSBIO
SIGNALING

Cited by (0)

3

These authors contributed equally to this work