Microglia control the glycinergic but not the GABAergic synapses via prostaglandin E2 in the spinal cord.

Yasmine Cantaut-Belarif,Sylvia Soares,Rocco Pizzarelli,Myriam Antri,Ilaria Vaccari,Alain Bessis,Sabrina Colasse,Antoine Triller,Radhouane Dallel,Marianne Renner

doi:10.1083/jcb.201607048

Microglia control the glycinergic but not the GABAergic synapses via prostaglandin E2 in the spinal cord.

Yasmine Cantaut-Belarif, Sylvia Soares + Show 8 more

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Journal: Journal of Cell Biology	Publication Date: Jul 17, 2017
Citations: 53	License type: cc-by-nc-sa

Affiliation: Institut de Biologie de l'École Normale Supérieure, Inserm, Sorbonne Université, Institut de Biologie Paris-Seine, French National Centre for Scientific Research, University of Clermont Auvergne, Centre Hospitalier Universitaire de Clermont-Ferrand

#Cyclic Adenosine Monophosphate-dependent Protein Kinase #GABAergic Synapses #Activation Of EP2 Receptors #Synaptic Dysfunctions #GABAA Receptors #Inhibitory Neurotransmission #Microglial Activation #Brain Diseases #Activation Of Protein Kinase #Production Of E2

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Microglia control excitatory synapses, but their role in inhibitory neurotransmission has been less well characterized. Herein, we show that microglia control the strength of glycinergic but not GABAergic synapses via modulation of the diffusion dynamics and synaptic trapping of glycine (GlyR) but not GABAA receptors. We further demonstrate that microglia regulate the activity-dependent plasticity of glycinergic synapses by tuning the GlyR diffusion trap. This microglia-synapse cross talk requires production of prostaglandin E2 by microglia, leading to the activation of neuronal EP2 receptors and cyclic adenosine monophosphate-dependent protein kinase. Thus, we now provide a link between microglial activation and synaptic dysfunctions, which are common early features of many brain diseases.

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Microglia control the glycinergic but not the GABAergic synapses via prostaglandin E2 in the spinal cord.