The Functional Upregulation of Piriform Cortex Is Associated with Cross-Modal Plasticity in Loss of Whisker Tactile Inputs

Date

2012-08-21

Authors

Ye, Bing
Huang, Li
Gao, Zilong
Chen, Ping
Ni, Hong
Guan, Sudong
Zhu, Yan
Wang, Jin-Hui

Journal Title

Journal ISSN

Volume Title

Publisher

Abstract

Background: Cross-modal plasticity is characterized as the hypersensitivity of remaining modalities after a sensory function is lost in rodents, which ensures their awareness to environmental changes. Cellular and molecular mechanisms underlying cross-modal sensory plasticity remain unclear. We aim to study the role of different types of neurons in cross-modal plasticity.


Methodology/Principal Findings: In addition to behavioral tasks in mice, whole-cell recordings at the excitatory and inhibitory neurons, and their two-photon imaging, were conducted in piriform cortex. We produced a mouse model of cross-modal sensory plasticity that olfactory function was upregulated by trimming whiskers to deprive their sensory inputs. In the meantime of olfactory hypersensitivity, pyramidal neurons and excitatory synapses were functionally upregulated, as well as GABAergic cells and inhibitory synapses were downregulated in piriform cortex from the mice of cross-modal sensory plasticity, compared with controls. A crosswire connection between barrel cortex and piriform cortex was established in cross-modal plasticity.


Conclusion/Significance: An upregulation of pyramidal neurons and a downregulation of GABAergic neurons strengthen the activities of neuronal networks in piriform cortex, which may be responsible for olfactory hypersensitivity after a loss of whisker tactile input. This finding provides the clues for developing therapeutic strategies to promote sensory recovery and substitution.

Description

Keywords

Research Article, Biology, Anatomy and Physiology, Neurological System, Sensory Physiology, Computational Biology, Computational Neuroscience, Sensory Systems, Model Organisms, Animal Models, Mouse, Neuroscience, Computational Neuroscience, Sensory Systems, Behavioral Neuroscience, Cellular Neuroscience, Neurophysiology, Sensory Perception, Medicine, Anatomy and Physiology, Neurological System, Sensory Physiology, Mental Health, Psychology

Citation

PLoS One. 2012 Aug 21; 7(8):e41986