Top-down feedback controls spatial summation and response amplitude in primate visual cortex

Lauri Nurminen; Sam Merlin; Maryam Bijanzadeh; Frederick Federer; Alessandra Angelucci

Top-down feedback controls spatial summation and response amplitude in primate visual cortex

Lauri Nurminen, Sam Merlin, Maryam Bijanzadeh, Frederick Federer, Alessandra Angelucci

Western Sydney University

Research output: Contribution to journal › Article › peer-review

123 Citations (Scopus)

Abstract

Sensory information travels along feedforward connections through a hierarchy of cortical areas, which, in turn, send feedback connections to lower-order areas. Feedback has been implicated in attention, expectation, and sensory context, but the mechanisms underlying these diverse feedback functions are unknown. Using specific optogenetic inactivation of feedback connections from the secondary visual area (V2), we show how feedback affects neural responses in the primate primary visual cortex (V1). Reducing feedback activity increases V1 cells' receptive field (RF) size, decreases their responses to stimuli confined to the RF, and increases their responses to stimuli extending into the proximal surround, therefore reducing surround suppression. Moreover, stronger reduction of V2 feedback activity leads to progressive increase in RF size and decrease in response amplitude, an effect predicted by a recurrent network model. Our results indicate that feedback modulates RF size, surround suppression and response amplitude, similar to the modulatory effects of visual spatial attention.

Original language	English
Article number	2281
Number of pages	13
Journal	Nature Communications
Volume	9
Issue number	1
Publication status	Published - 1 Dec 2018

Bibliographical note

Publisher Copyright:
© 2018 The Author(s).

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Keywords

feedback
light
neurons
primates
visual cortex

Cite this

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abstract = "Sensory information travels along feedforward connections through a hierarchy of cortical areas, which, in turn, send feedback connections to lower-order areas. Feedback has been implicated in attention, expectation, and sensory context, but the mechanisms underlying these diverse feedback functions are unknown. Using specific optogenetic inactivation of feedback connections from the secondary visual area (V2), we show how feedback affects neural responses in the primate primary visual cortex (V1). Reducing feedback activity increases V1 cells' receptive field (RF) size, decreases their responses to stimuli confined to the RF, and increases their responses to stimuli extending into the proximal surround, therefore reducing surround suppression. Moreover, stronger reduction of V2 feedback activity leads to progressive increase in RF size and decrease in response amplitude, an effect predicted by a recurrent network model. Our results indicate that feedback modulates RF size, surround suppression and response amplitude, similar to the modulatory effects of visual spatial attention.",

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AU - Angelucci, Alessandra

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KW - light

KW - neurons

KW - primates

KW - visual cortex

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Top-down feedback controls spatial summation and response amplitude in primate visual cortex

Abstract

Bibliographical note

Open Access - Access Right Statement

Keywords

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