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SynCAM 1 Adhesion Dynamically Regulates Synapse Number and Impacts Plasticity and Learning

Synaptogenesis is required for wiring neuronal circuits in the developing brain and continues to remodel adult networks. However, the molecules organizing synapse development and maintenance in vivo remain incompletely understood. We now demonstrate that the immunoglobulin adhesion molecule SynCAM 1...

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Bibliographic Details
Published in:Neuron (Cambridge, Mass.) Mass.), 2010-12, Vol.68 (5), p.894-906
Main Authors: Robbins, Elissa M., Krupp, Alexander J., Perez de Arce, Karen, Ghosh, Ananda K., Fogel, Adam I., Boucard, Antony, Südhof, Thomas C., Stein, Valentin, Biederer, Thomas
Format: Article
Language:English
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Summary:Synaptogenesis is required for wiring neuronal circuits in the developing brain and continues to remodel adult networks. However, the molecules organizing synapse development and maintenance in vivo remain incompletely understood. We now demonstrate that the immunoglobulin adhesion molecule SynCAM 1 dynamically alters synapse number and plasticity. Overexpression of SynCAM 1 in transgenic mice promotes excitatory synapse number, while loss of SynCAM 1 results in fewer excitatory synapses. By turning off SynCAM 1 overexpression in transgenic brains, we show that it maintains the newly induced synapses. SynCAM 1 also functions at mature synapses to alter their plasticity by regulating long-term depression. Consistent with these effects on neuronal connectivity, SynCAM 1 expression affects spatial learning, with knock-out mice learning better. The reciprocal effects of increased SynCAM 1 expression and loss reveal that this adhesion molecule contributes to the regulation of synapse number and plasticity, and impacts how neuronal networks undergo activity-dependent changes. ► SynCAM 1 dynamically affects synapse number and maintenance ► The plasticity mechanism of long-term depression is regulated by SynCAM 1 ► Synaptic effects of SynCAM 1 are linked to altered—even improved—behavioral output
ISSN:0896-6273
1097-4199
DOI:10.1016/j.neuron.2010.11.003