1. A Critical Role of Presynaptic Cadherin/Catenin/p140Cap Complexes in Stabilizing Spines and Functional Synapses in the Neocortex.
- Author
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Li, Min-Yin, Miao, Wan-Ying, Wu, Qiu-Zi, He, Shun-Ji, Yan, Guoquan, Yang, Yanrui, Liu, Jia-Jia, Taketo, M. Mark, and Yu, Xiang
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PRESYNAPTIC receptors , *CADHERINS , *SPINE physiology , *SYNAPSES , *NEOCORTEX - Abstract
Summary The formation of functional synapses requires coordinated assembly of presynaptic transmitter release machinery and postsynaptic trafficking of functional receptors and scaffolds. Here, we demonstrate a critical role of presynaptic cadherin/catenin cell adhesion complexes in stabilizing functional synapses and spines in the developing neocortex. Importantly, presynaptic expression of stabilized β-catenin in either layer (L) 4 excitatory neurons or L2/3 pyramidal neurons significantly upregulated excitatory synaptic transmission and dendritic spine density in L2/3 pyramidal neurons, while its sparse postsynaptic expression in L2/3 neurons had no such effects. In addition, presynaptic β-catenin expression enhanced release probability of glutamatergic synapses. Newly identified β-catenin-interacting protein p140Cap is required in the presynaptic locus for mediating these effects. Together, our results demonstrate that cadherin/catenin complexes stabilize functional synapses and spines through anterograde signaling in the neocortex and provide important molecular evidence for a driving role of presynaptic components in spinogenesis in the neocortex. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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