Title: Induction of GABAergic postsynaptic differentiation by alpha-neurexins Kang Y, Zhang X, Dobie F, Wu H, Craig AM Ref: Journal of Biological Chemistry, 283:2323, 2008 : PubMed
Beta-neurexin and neuroligin cell adhesion molecules contribute to synapse development in the brain. The longer alpha-neurexins function at both glutamate and gamma-aminobutyric acid (GABA) synapses in coupling to presynaptic calcium channels. Binding of alpha-neurexins to neuroligins was recently reported, but the role of the alpha-neurexins in synapse development has not been well studied. Here we report that in COS cell neuron coculture assays, all three alpha-neurexins induce clustering of the GABAergic postsynaptic scaffolding protein gephyrin and neuroligin 2 but not of the glutamatergic postsynaptic scaffolding protein PSD-95 or neuroligin 1/3/4. alpha-Neurexins also induce clustering of the GABA(A) receptor gamma2 subunit. This synapse promoting activity of alpha-neurexins is mediated by the sixth LNS (laminin neurexin sex hormone-binding protein) domain and negatively modulated by upstream sequences. Although inserts at splice site 4 (S4) in beta-neurexins promote greater clustering activity for GABA than glutamate proteins in coculture assay, alpha-neurexin-specific sequences confer complete specificity for GABA proteins. We further report a developmental increase in the ratio of -S4 to +S4 forms of neurexins correlating with an increase in glutamate relative to GABA synaptogenesis and activity regulation of splicing at S4. Thus, +S4 beta-neurexins and, even more selectively, alpha-neurexins may be mediators of GABAergic synaptic protein recruitment and stabilization.
        
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Kang Y, Zhang X, Dobie F, Wu H, Craig AM (2008) Induction of GABAergic postsynaptic differentiation by alpha-neurexins Journal of Biological Chemistry283: 2323-34
Kang Y, Zhang X, Dobie F, Wu H, Craig AM (2008) Journal of Biological Chemistry283: 2323-34