Role of Neuroligin in Synapse Formation and Autism

Date

2006-08-11

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Abstract

Neuroligins mediate synaptogenesis through formation of a trans-synaptic complex with presynaptic neurexins. Interaction of neuroligin 1 with neurexins is regulated by alternative splicing of both neuroligin 1 (at splice site B) and of neurexins (at splice site #4). Full-length neuroligin 1 that binds only beta -neurexin more potently promotes synapse formation in hippocampal neurons, whereas neuroligin 1 lacking splice site B, which binds both alpha - and beta -neurexins, is more efficient at synapse expansion. Mutations in two surface loops of neuroligin 1 abolished neuroligin binding to neurexin 1beta and blocked synapse formation. Neuroligin mutation found in autism spectrum disorders impairs cell-surface transport but does not completely abolish synaptogenic activity. In hippocampal neurons, overexpressed neuroligin 1 enhances excitatory but not inhibitory synaptic responses, and increases the ratio of NMDA to AMPA receptor-mediated synaptic currents. In contrast, genetic deletion of neuroligin 1 in mice decreases NMDA receptor-mediated synaptic currents and the NMDA/AMPA receptor ratio. Contrary to neuroligin 1, neuroligin 2 potentiates inhibitory but not excitatory synaptic responses. The synaptic actions of neuroligin 1 are suppressed by chronic blockade of NMDA receptors or of CaM-kinase II. Neuroligin 1 with an autistic-spectrum syndrome mutation decreases excitatory synaptic responses, consistent with a role for endogenous neuroligin 1 in synapse development. Taken together, our data suggest that neuroligin-neurexin interaction regulated by their alternative splicing promotes formation of specific synapses; synaptogenic function of neuroligin is regulated by NMDA receptor and Cam-kinase II activation, suggesting a critical role for neuroligins in synaptic plasticity and modulation of neural circuits.

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Embryology, Synapses, Autism, Nerve Tissue Proteins

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