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Structural plasticity of perisynaptic astrocyte processes involves ezrin and metabotropic glutamate receptors

by Laboratoire de nutrition et sécurité alimentaire ; Institut National de la Recherche Agronomique (INRA) , Arpin, Monique , Institute for Anatomy and Cell Biology ; Universität Ulm - Ulm University [Ulm, Allemagne] , Institute of Cellular Neurosciences ; Rheinische Friedrich-Wilhelms-Universität Bonn , Universitaetsklinikum Hamburg-Eppendorf = University Medical Center Hamburg-Eppendorf [Hamburg] (UKE) , Pröls, Felicitas , Lavialle, Monique , Technische Universität Dresden = Dresden University of Technology (TU Dresden) , Derouiche, Amin , Institut Curie [Paris] , Goethe-Universität Frankfurt am Main , Anlauf, Enrico , Aumann, Georg

in Actins / Animals / Astrocytes / Astrocytes - cytology / Astrocytes - metabolism / Astrocytes - ultrastructure / Biological Sciences / Brain / Cell membranes / Cells, Cultured / Circadian rhythms / Cricetinae / Cytoskeletal Proteins - genetics / Cytoskeletal Proteins - metabolism / Cytoskeleton / Data processing / Electrophysiology / Endothelial cells / Epithelial cells / ezrin / Female / Glial Fibrillary Acidic Protein - metabolism / glutamic acid / Glutamic Acid - pharmacology / Glutamic acid receptors / Glutamic acid receptors (metabotropic) / Green Fluorescent Proteins - genetics / Green Fluorescent Proteins - metabolism / hamsters / Hippocampus / Hippocampus - cytology / Hippocampus - metabolism / Immunocytochemistry / Immunohistochemistry / Immunoreactivity / Life Sciences / Light microscopy / Male / Mesocricetus / microfilament proteins / Microscopy, Fluorescence / Microscopy, Immunoelectron / Motility / Neuroglia / Neuronal Plasticity - physiology / Neurons / Neuroscience / Plasticity / Pregnancy / Proteins / Pseudopodia / Pseudopodia - drug effects / Pseudopodia - metabolism / Pseudopodia - physiology / Rats / Rats, Sprague-Dawley / Receptor, Metabotropic Glutamate 5 / receptors / Receptors, Metabotropic Glutamate - metabolism / RNA Interference / Rodents / siRNA / small interfering RNA / Suprachiasmatic nucleus / synapse / Synapses / Synapses - metabolism / Synapses - physiology

2011

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Structural plasticity of perisynaptic astrocyte processes involves ezrin and metabotropic glutamate receptors

2011

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Structural plasticity of perisynaptic astrocyte processes involves ezrin and metabotropic glutamate receptors

2011

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Journal Article

Structural plasticity of perisynaptic astrocyte processes involves ezrin and metabotropic glutamate receptors

Laboratoire de nutrition et sécurité alimentaire ; Institut National de la Recherche Agronomique (INRA),

Arpin, Monique,

Institute for Anatomy and Cell Biology ; Universität Ulm - Ulm University [Ulm, Allemagne],

Institute of Cellular Neurosciences ; Rheinische Friedrich-Wilhelms-Universität Bonn,

Universitaetsklinikum Hamburg-Eppendorf = University Medical Center Hamburg-Eppendorf [Hamburg] (UKE),

Pröls, Felicitas,

Lavialle, Monique,

Technische Universität Dresden = Dresden University of Technology (TU Dresden),

Derouiche, Amin,

Institut Curie [Paris],

Goethe-Universität Frankfurt am Main,

Anlauf, Enrico,

Aumann, Georg

2011

Overview

The peripheral astrocyte process (PAP) preferentially associates with the synapse. The PAP, which is not found around every synapse, extends to or withdraws from it in an activity-dependent manner. Although the pre- and postsynaptic elements have been described in great molecular detail, relatively little is known about the PAP because of its difficult access for electrophysiology or light microscopy, as they are smaller than microscopic resolution. We investigated possible stimuli and mechanisms of PAP plasticity. Immunocytochemistry on rat brain sections demonstrates that the actin-binding protein ezrin and the metabotropic glutamate receptors (mGluRs) 3 and 5 are compartmentalized to the PAP but not to the GFAP-containing stem process. Further experiments applying ezrin siRNA or dominant-negative ezrin in primary astrocytes indicate that filopodia formation and motility require ezrin in the membrane/cytoskeleton bound (i.e., T567-phosphorylated) form. Glial processes around synapses in situ consistently display this ezrin form. Possible motility stimuli of perisynaptic glial processes were studied in culture, based on their similarity with filopodia. Glutamate and glutamate analogues reveal that rapid (5 min), glutamate-induced filopodia motility is mediated by mGluRs 3 and 5. Ultrastructurally, these mGluR subtypes were also localized in astrocytes in the rat hippocampus, preferentially in their fine PAPs. In vivo, changes in glutamatergic circadian activity in the hamster suprachiasmatic nucleus are accompanied by changes of ezrin immunoreactivity in the suprachiasmatic nucleus, in line with transmitter-induced perisynaptic glial motility. The data suggest that (i) ezrin is required for the structural plasticity of PAPs and (ii) mGluRs can stimulate PAP plasticity.

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Publisher

National Academy of Sciences,HAL CCSD,National Acad Sciences

Subject

Actins

/ Animals

/ Astrocytes

/ Astrocytes - cytology

/ Astrocytes - metabolism

/ Astrocytes - ultrastructure

/ Biological Sciences