Figure-ground perception in the awake mouse and neuronal activity elicited by figure-ground stimuli in primary visual cortex

Ulf H. Schnabel,Matthew W. Self,Hans Op de Beeck,Christophe Bossens,Jeannette A. M. Lorteije,Pieter R. Roelfsema

doi:10.1038/s41598-018-36087-8

Abstract

Figure-ground segregation is the process by which the visual system identifies image elements of figures and segregates them from the background. Previous studies examined figure-ground segregation in the visual cortex of monkeys where figures elicit stronger neuronal responses than backgrounds. It was demonstrated in anesthetized mice that neurons in the primary visual cortex (V1) of mice are sensitive to orientation contrast, but it is unknown whether mice can perceptually segregate figures from a background. Here, we examined figure-ground perception of mice and found that mice can detect figures defined by an orientation that differs from the background while the figure size, position or phase varied. Electrophysiological recordings in V1 of awake mice revealed that the responses elicited by figures were stronger than those elicited by the background and even stronger at the edge between figure and background. A figural response could even be evoked in the absence of a stimulus in the V1 receptive field. Current-source-density analysis suggested that the extra activity was caused by synaptic inputs into layer 2/3. We conclude that the neuronal mechanisms of figure-ground segregation in mice are similar to those in primates, enabling investigation with the powerful techniques for circuit analysis now available in mice.

Highlights

An important first step in the analysis of a visual scene is the segregation of figures from the background
We presented a figure with a horizontal orientation on a background with a vertical orientation or vice versa, so that the orientation of the grating in the receptive field was, on average, the same in the figure and background conditions
Mean performance for the luminance-defined stimuli, which had already been introduced at an earlier stage, was 83% (SEM = 1.9%) and the accuracy for the new grating stimuli was 86% (SEM = 2%)

Summary

Introduction

An important first step in the analysis of a visual scene is the segregation of figures from the background. Figure-ground perception involves a number of successive processing steps[3,10,11] (see Fig. 1B “stage 3” for example figure-ground stimuli): (1) An initial feedforward input from the retina drives visual responses in low-level and higher level visual areas. During this phase the excitation of cells mainly relies on AMPA receptors and neurons represent the features in their receptive fields. We investigated whether mice can perceive orientation-defined figure-ground stimuli and we examined the neuronal activity elicited in the different layers of V1 of awake mice

Methods

Results

Conclusion