Literature DB >> 26291161

Neuroligins Sculpt Cerebellar Purkinje-Cell Circuits by Differential Control of Distinct Classes of Synapses.

Bo Zhang1, Lulu Y Chen1, Xinran Liu2, Stephan Maxeiner1, Sung-Jin Lee1, Ozgun Gokce1, Thomas C Südhof3.   

Abstract

Neuroligins are postsynaptic cell-adhesion molecules that bind presynaptic neurexins and are genetically linked to autism. Neuroligins are proposed to organize synaptogenesis and/or synaptic transmission, but no systematic analysis of neuroligins in a defined circuit is available. Here, we show that conditional deletion of all neuroligins in cerebellar Purkinje cells caused loss of distal climbing-fiber synapses and weakened climbing-fiber but not parallel-fiber synapses, consistent with alternative use of neuroligins and cerebellins as neurexin ligands for the excitatory climbing-fiber versus parallel-fiber synapses. Moreover, deletion of neuroligins increased the size of inhibitory basket/stellate-cell synapses but simultaneously severely impaired their function. Multiple neuroligin isoforms differentially contributed to climbing-fiber and basket/stellate-cell synapse functions, such that inhibitory synapse-specific neuroligin-2 was unexpectedly essential for maintaining normal climbing-fiber synapse numbers. Using systematic analyses of all neuroligins in a defined neural circuit, our data thus show that neuroligins differentially contribute to various Purkinje-cell synapses in the cerebellum in vivo.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26291161      PMCID: PMC4545494          DOI: 10.1016/j.neuron.2015.07.020

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  70 in total

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Authors:  Jaewon Ko; Marc V Fuccillo; Robert C Malenka; Thomas C Südhof
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  64 in total

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Journal:  Neuron       Date:  2017-05-03       Impact factor: 17.173

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Journal:  J Neurosci       Date:  2016-08-31       Impact factor: 6.167

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Review 8.  Transcellular Nanoalignment of Synaptic Function.

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Review 9.  LTD-like molecular pathways in developmental synaptic pruning.

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