A Top-Down Cortical Circuit for Accurate Sensory Perception

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2015 May 26

PMID 26004915

Citations 179

Authors

Satoshi Manita

Takayuki Suzuki

Chihiro Homma

Takashi Matsumoto

Maya Odagawa

Kazuyuki Yamada

Keisuke Ota

Chie Matsubara

Ayumu Inutsuka

Masaaki Sato

Masamichi Ohkura

Akihiro Yamanaka

Yuchio Yanagawa

Junichi Nakai

Yasunori Hayashi

Matthew E Larkum

Masanori Murayama

Affiliations

Soon will be listed here.

Abstract

A fundamental issue in cortical processing of sensory information is whether top-down control circuits from higher brain areas to primary sensory areas not only modulate but actively engage in perception. Here, we report the identification of a neural circuit for top-down control in the mouse somatosensory system. The circuit consisted of a long-range reciprocal projection between M2 secondary motor cortex and S1 primary somatosensory cortex. In vivo physiological recordings revealed that sensory stimulation induced sequential S1 to M2 followed by M2 to S1 neural activity. The top-down projection from M2 to S1 initiated dendritic spikes and persistent firing of S1 layer 5 (L5) neurons. Optogenetic inhibition of M2 input to S1 decreased L5 firing and the accurate perception of tactile surfaces. These findings demonstrate that recurrent input to sensory areas is essential for accurate perception and provide a physiological model for one type of top-down control circuit.

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