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  • Compensatory redistribution of neuroligins and N-cadherin following deletion of synaptic β1-integrin.

Compensatory redistribution of neuroligins and N-cadherin following deletion of synaptic β1-integrin.

The Journal of comparative neurology (2012-04-11)
Steven Mortillo, Alice Elste, Yongchao Ge, Shekhar B Patil, Kuangfu Hsiao, George W Huntley, Ronald L Davis, Deanna L Benson
ABSTRACT

β1-containing integrins are required for persistent synaptic potentiation in hippocampus and regulate hippocampal-dependent learning. Based largely on indirect evidence, there is a prevailing assumption that β1-integrins are localized at synapses, where they contribute to synapse adhesion and signaling, but this has not been examined directly. Here we investigate the fine localization of β1-integrin in adult mouse hippocampus using high-resolution immunogold labeling, with a particular emphasis on synaptic labeling patterns. We find that β1-integrins localize to synapses in CA1 and are concentrated postsynaptically. At the postsynaptic membrane, β1-integrins are found more commonly clustered near active zone centers rather than at the peripheral edges. In mice harboring a conditional deletion of β1-integrins, labeling for N-cadherin and neuroligins increases. Western blots show increased levels of N-cadherin in total lysates and neuroligins increase selectively in synaptosomes. These data suggest there is a dynamic, compensatory adjustment of synaptic adhesion. Such adjustment is specific only for certain cell adhesion molecules (CAMs), because labeling for SynCAM is unchanged. Together, our findings demonstrate unequivocally that β1-integrin is an integral synaptic adhesion protein, and suggest that adhesive function at the synapse reflects a cooperative and dynamic network of multiple CAM families.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-Integrin β1 Antibody, clone P4C10, azide free, clone P4C10, Chemicon®, from mouse