Soluble Ectodomain of Neuroligin 1 Decreases Synaptic Activity by Activating Metabotropic Glutamate Receptor 2.

Michelle D Gjørlund,Anders V Petersen,Jean-François Perrier,Andreas B Kønig,Sylwia Owczarek,Eva M M Carlsen,Oksana Dmytrieva,Vladimir Berezin,Jacob Jacobsen

doi:10.3389/fnmol.2017.00116

Michelle D Gjørlund, Anders V Petersen + Show 7 more

Open Access

https://doi.org/10.3389/fnmol.2017.00116

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Abstract

Synaptic cell adhesion molecules represent important targets for neuronal activity-dependent proteolysis. Postsynaptic neuroligins (NLs) form trans-synaptic complexes with presynaptic neurexins (NXs). Both NXs and NLs are cleaved from the cell surface by metalloproteases in an activity-dependent manner, releasing a soluble extracellular fragment and membrane-tethered C-terminal fragment. The cleavage of NL1 depresses synaptic transmission, but the mechanism by which this occurs is unknown. Metabotropic glutamate receptor 2 (mGluR2) are located primarily at the periphery of presynaptic terminals, where they inhibit the formation of cyclic adenosine monophosphate (cAMP) and consequently suppress the release of glutamate and decrease synaptic transmission. In the present study, we found that the soluble ectodomain of NL1 binds to and activates mGluR2 in both neurons and heterologous cells, resulting in a decrease in cAMP formation. In a slice preparation from the hippocampus of mice, NL1 inhibited the release of glutamate from mossy fibers that project to CA3 pyramidal neurons. The presynaptic effect of NL1 was abolished in the presence of a selective antagonist for mGluR2. Thus, our data suggest that the soluble extracellular domain of NL1 functionally interacts with mGluR2 and thereby decreases synaptic strength.

Highlights

The development and function of neuronal synapses depend on bidirectional interactions between pre- and postsynaptic components (Sanes and Lichtman, 1999)
MGluR2/3 receptors decrease cyclic adenosine monophosphate (cAMP) levels, which produce a reduction of glutamate release and a decrease in postsynaptic activity (Niswender and Conn, 2010)
The analysis of Metabotropic glutamate receptor 2 (mGluR2) and mGluR3 expression pattern reveals that mGluR2 is prominently enriched in all regions of the hippocampus whereas mGluR3 is mainly expressed in CA1 region (Wright et al, 2013)

Summary

Introduction

The development and function of neuronal synapses depend on bidirectional interactions between pre- and postsynaptic components (Sanes and Lichtman, 1999). Presynaptic neurexins (NXs) and postsynaptic neuroligins (NLs) form an intercellular junction that is important for normal development, maintenance and function of synapses (reviewed by Südhof, 2008). Through interactions with their binding partners, the NX/NL complex triggers signal transduction at both excitatory and inhibitory synapses (reviewed by Bang and Owczarek, 2013). NLs are essential for synaptic functions and alterations in their expression can lead to deficits in memory formation and synaptic plasticity (Zhang B. et al, 2015). The overexpression of NL1 shifts synaptic activity toward greater excitation, resulting in impairment in the induction of long-term potentiation (LTP) and deficits in memory acquisition (Dahlhaus et al, 2010). The acute suppression of NL1 in the amygdala prevents the induction of LTP and results in deficits in the storage of associative fear memory (Kim et al, 2008)

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