TY - JOUR
T1 - Serotonin Mediates Cross-Modal Reorganization of Cortical Circuits
AU - Jitsuki, Susumu
AU - Takemoto, Kiwamu
AU - Kawasaki, Taisuke
AU - Tada, Hirobumi
AU - Takahashi, Aoi
AU - Becamel, Carine
AU - Sano, Akane
AU - Yuzaki, Michisuke
AU - Zukin, R. Suzanne
AU - Ziff, Edward B.
AU - Kessels, Helmut W.
AU - Takahashi, Takuya
N1 - Funding Information:
This project was supported by JST,CREST (T.T.), Special Coordination Funds for Promoting Science and Technology (T.T.), “Development of biomarker candidates for social behavior” carried out under the Strategic Research Program for Brain Sciences by the Ministry of Education, Culture, Sports,Science and Technology of Japan (TT), and Ishidsu Shun Memorial Scholarship (S.J.). We thank Dr. Philippe Marin (Institute de génomique fonctionnelle) for supporting the short hairpin constructs and characterization in his laboratory. We thank Yoshiko Kanno and Yoshinori Kamiya for technical assistance. We thank Dr. Hiroyuki Miyoshi and Atsushi Miyawaki (RIKEN) for providing Lenti-virus vector. We thank Kenkichi Takase Himeji Dokkyo) for discussion. We also thank Yasunori Hayashi (RIKEN) and Jose Esteban (CSIC) for critically reading the manuscript.
PY - 2011/2/24
Y1 - 2011/2/24
N2 - Loss of one type of sensory input can cause improved functionality of other sensory systems. Whereas this form of plasticity, cross-modal plasticity, is well established, the molecular and cellular mechanisms underlying it are still unclear. Here, we show that visual deprivation (VD) increases extracellular serotonin in the juvenile rat barrel cortex. This increase in serotonin levels facilitates synaptic strengthening at layer 4 to layer 2/3 synapses within the barrel cortex. Upon VD, whisker experience leads to trafficking of the AMPA-type glutamate receptors (AMPARs) into these synapses through the activation of ERK and increased phosphorylation of AMPAR subunit GluR1 at the juvenile age when natural whisker experience no longer induces synaptic GluR1 delivery. VD thereby leads to sharpening of the functional whisker-barrel map at layer 2/3. Thus, sensory deprivation of one modality leads to serotonin release in remaining modalities, facilitates GluR1-dependent synaptic strengthening, and refines cortical organization.
AB - Loss of one type of sensory input can cause improved functionality of other sensory systems. Whereas this form of plasticity, cross-modal plasticity, is well established, the molecular and cellular mechanisms underlying it are still unclear. Here, we show that visual deprivation (VD) increases extracellular serotonin in the juvenile rat barrel cortex. This increase in serotonin levels facilitates synaptic strengthening at layer 4 to layer 2/3 synapses within the barrel cortex. Upon VD, whisker experience leads to trafficking of the AMPA-type glutamate receptors (AMPARs) into these synapses through the activation of ERK and increased phosphorylation of AMPAR subunit GluR1 at the juvenile age when natural whisker experience no longer induces synaptic GluR1 delivery. VD thereby leads to sharpening of the functional whisker-barrel map at layer 2/3. Thus, sensory deprivation of one modality leads to serotonin release in remaining modalities, facilitates GluR1-dependent synaptic strengthening, and refines cortical organization.
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U2 - 10.1016/j.neuron.2011.01.016
DO - 10.1016/j.neuron.2011.01.016
M3 - Article
C2 - 21338886
AN - SCOPUS:79951701766
SN - 0896-6273
VL - 69
SP - 780
EP - 792
JO - Neuron
JF - Neuron
IS - 4
ER -