Dorothee Breuer scite author profile

A challenge in neuroscience is to understand the mechanisms underlying synapse formation. Most excitatory synapses in the brain are built on spines, which are actin-rich protrusions from dendrites. Spines are a major substrate of brain plasticity, and spine pathologies are observed in various mental illnesses. Here we investigate the role of neurobeachin (Nbea), a multidomain protein previously linked to cases of autism, in synaptogenesis. We show that deletion of Nbea leads to reduced numbers of spinous synapses in cultured neurons from complete knockouts and in cortical tissue from heterozygous mice, accompanied by altered miniature postsynaptic currents. In addition, excitatory synapses terminate mostly at dendritic shafts instead of spine heads in Nbea mutants, and actin becomes less enriched synaptically. As actin and synaptopodin, a spine-associated protein with actin-bundling activity, accumulate ectopically near the Golgi apparatus of mutant neurons, a role emerges for Nbea in trafficking important cargo to pre- and postsynaptic compartments.

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Dystroglycan Binding to α-Neurexin Competes with Neurexophilin-1 and Neuroligin in the Brain

Reißner

Stahn

Breuer

et al. 2014

Journal of Biological Chemistry

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Background: Extracellular matrix dystroglycan has essential functions at the neuromuscular junction and at inhibitory synapses in the brain.Results: Brain dystroglycan competes with neurexophilin-1 and neuroligins for binding to presynaptic α-neurexins.Conclusion: Competition between α-neurexin ligands in combination with alternative splicing determines formation of important trans-synaptic complexes.Significance: This is the first analysis of binding interference in α-neurexin multiplexes.

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Modulation of synaptic function through the α-neurexin–specific ligand neurexophilin-1

Born

Breuer

Wang

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Neurotransmission at different synapses is highly variable, and cell-adhesion molecules like α-neurexins (α-Nrxn) and their extracellular binding partners determine synapse function. Although α-Nrxn affect transmission at excitatory and inhibitory synapses, the contribution of neurexophilin-1 (Nxph1), an α-Nrxn ligand with restricted expression in subpopulations of inhibitory neurons, is unclear. To reveal its role, we investigated mice that either lack or overexpress Nxph1. We found that genetic deletion of Nxph1 impaired GABA B receptor (GABA B R)-dependent short-term depression of inhibitory synapses in the nucleus reticularis thalami, a region where Nxph1 is normally expressed at high levels. To test the conclusion that Nxph1 supports presynaptic GABA B R, we expressed Nxph1 ectopically at excitatory terminals in the neocortex, which normally do not contain this molecule but can be modulated by GABA B R. We generated Nxph1-GFP transgenic mice under control of the Thy1.2 promoter and observed a reduced short-term facilitation at these excitatory synapses, representing an inverse phenotype to the knockout. Consistently, the diminished facilitation could be reversed by pharmacologically blocking GABA B R with CGP-55845. Moreover, a complete rescue was achieved by additional blocking of postsynaptic GABA A R with intracellular picrotoxin or gabazine, suggesting that Nxph1 is able to recruit or stabilize both presynaptic GABA B R and postsynaptic GABA A R. In support, immunoelectron microscopy validated the localization of ectopic Nxph1 at the synaptic cleft of excitatory synapses in transgenic mice and revealed an enrichment of GABA A R and GABA B R subunits compared with wild-type animals. Thus, our data propose that Nxph1 plays an instructive role in synaptic short-term plasticity and the configuration with GABA receptors. synaptic transmission | thalamus | autism | neuroligin | ultrastructure

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Activation of the phosphatidylinositol cycle in spreading cells

Breuer¹,

Wagener²

1989

Experimental Cell Research

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Dorothee Breuer

Dendritic spine formation and synaptic function require neurobeachin

Dystroglycan Binding to α-Neurexin Competes with Neurexophilin-1 and Neuroligin in the Brain

Modulation of synaptic function through the α-neurexin–specific ligand neurexophilin-1

Activation of the phosphatidylinositol cycle in spreading cells

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