Vesicular Glutamate Transporter VGLUT2 Expression Levels Control Quantal Size and Neuropathic Pain

Uptake of L-glutamate into synaptic vesicles is mediated by vesicular glutamate transporters (VGLUTs). Three transporters (VGLUT1-VGLUT3) are expressed in the mammalian CNS, with partial overlapping expression patterns, and VGLUT2 is the most abundantly expressed paralog in the thalamus, midbrain, a...

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Veröffentlicht in:	The Journal of neuroscience 2006-11, Vol.26 (46), p.12055-12066
Hauptverfasser:	Moechars, Diederik, Weston, Matthew C, Leo, Sandra, Callaerts-Vegh, Zsuzsanna, Goris, Ilse, Daneels, Guy, Buist, A, Cik, M, van der Spek, P, Kass, Stefan, Meert, Theo, D'Hooge, Rudi, Rosenmund, Christian, Hampson, R. Mark
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Schlagworte:	Animals Cells, Cultured Chronic Disease Disease Models, Animal Excitatory Postsynaptic Potentials - genetics Genes, Lethal - genetics Glutamic Acid - metabolism Hippocampus - metabolism Hippocampus - physiopathology Hippocampus - ultrastructure Mice Mice, Inbred C57BL Mice, Knockout Neuralgia - genetics Neuralgia - metabolism Neuralgia - physiopathology Pain Measurement - methods Peripheral Nervous System Diseases - genetics Peripheral Nervous System Diseases - metabolism Peripheral Nervous System Diseases - physiopathology Presynaptic Terminals - metabolism Synaptic Transmission - genetics Synaptic Vesicles - metabolism Thalamus - metabolism Thalamus - physiopathology Thalamus - ultrastructure Vesicular Glutamate Transport Protein 2 - genetics Vesicular Glutamate Transport Protein 2 - metabolism
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creator	Moechars, Diederik Weston, Matthew C Leo, Sandra Callaerts-Vegh, Zsuzsanna Goris, Ilse Daneels, Guy Buist, A Cik, M van der Spek, P Kass, Stefan Meert, Theo D'Hooge, Rudi Rosenmund, Christian Hampson, R. Mark
description	Uptake of L-glutamate into synaptic vesicles is mediated by vesicular glutamate transporters (VGLUTs). Three transporters (VGLUT1-VGLUT3) are expressed in the mammalian CNS, with partial overlapping expression patterns, and VGLUT2 is the most abundantly expressed paralog in the thalamus, midbrain, and brainstem. Previous studies have shown that VGLUT1 is necessary for glutamatergic transmission in the hippocampus, but the role of VGLUT2 in excitatory transmission is unexplored in glutamatergic neurons and in vivo. We examined the electrophysiological and behavioral consequences of loss of either one or both alleles of VGLUT2. We show that targeted deletion of VGLUT2 in mice causes perinatal lethality and a 95% reduction in evoked glutamatergic responses in thalamic neurons, although hippocampal synapses function normally. Behavioral analysis of heterozygous VGLUT2 mice showed unchanged motor function, learning and memory, acute nociception, and inflammatory pain, but acquisition of neuropathic pain, maintenance of conditioned taste aversion, and defensive marble burying were all impaired. Reduction or loss of VGLUT2 in heterozygous and homozygous VGLUT2 knock-outs led to a graded reduction in the amplitude of the postsynaptic response to single-vesicle fusion in thalamic neurons, indicating that the vesicular VGLUT content is critically important for quantal size and demonstrating that VGLUT2-mediated reduction of excitatory drive affects specific forms of sensory processing.
doi_str_mv	10.1523/JNEUROSCI.2556-06.2006
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Mark</creator><creatorcontrib>Moechars, Diederik ; Weston, Matthew C ; Leo, Sandra ; Callaerts-Vegh, Zsuzsanna ; Goris, Ilse ; Daneels, Guy ; Buist, A ; Cik, M ; van der Spek, P ; Kass, Stefan ; Meert, Theo ; D'Hooge, Rudi ; Rosenmund, Christian ; Hampson, R. Mark</creatorcontrib><description>Uptake of L-glutamate into synaptic vesicles is mediated by vesicular glutamate transporters (VGLUTs). Three transporters (VGLUT1-VGLUT3) are expressed in the mammalian CNS, with partial overlapping expression patterns, and VGLUT2 is the most abundantly expressed paralog in the thalamus, midbrain, and brainstem. Previous studies have shown that VGLUT1 is necessary for glutamatergic transmission in the hippocampus, but the role of VGLUT2 in excitatory transmission is unexplored in glutamatergic neurons and in vivo. We examined the electrophysiological and behavioral consequences of loss of either one or both alleles of VGLUT2. 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Mark</creatorcontrib><title>Vesicular Glutamate Transporter VGLUT2 Expression Levels Control Quantal Size and Neuropathic Pain</title><title>The Journal of neuroscience</title><addtitle>J Neurosci</addtitle><description>Uptake of L-glutamate into synaptic vesicles is mediated by vesicular glutamate transporters (VGLUTs). Three transporters (VGLUT1-VGLUT3) are expressed in the mammalian CNS, with partial overlapping expression patterns, and VGLUT2 is the most abundantly expressed paralog in the thalamus, midbrain, and brainstem. Previous studies have shown that VGLUT1 is necessary for glutamatergic transmission in the hippocampus, but the role of VGLUT2 in excitatory transmission is unexplored in glutamatergic neurons and in vivo. We examined the electrophysiological and behavioral consequences of loss of either one or both alleles of VGLUT2. 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Mark</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Vesicular Glutamate Transporter VGLUT2 Expression Levels Control Quantal Size and Neuropathic Pain</atitle><jtitle>The Journal of neuroscience</jtitle><addtitle>J Neurosci</addtitle><date>2006-11-15</date><risdate>2006</risdate><volume>26</volume><issue>46</issue><spage>12055</spage><epage>12066</epage><pages>12055-12066</pages><issn>0270-6474</issn><eissn>1529-2401</eissn><abstract>Uptake of L-glutamate into synaptic vesicles is mediated by vesicular glutamate transporters (VGLUTs). Three transporters (VGLUT1-VGLUT3) are expressed in the mammalian CNS, with partial overlapping expression patterns, and VGLUT2 is the most abundantly expressed paralog in the thalamus, midbrain, and brainstem. Previous studies have shown that VGLUT1 is necessary for glutamatergic transmission in the hippocampus, but the role of VGLUT2 in excitatory transmission is unexplored in glutamatergic neurons and in vivo. We examined the electrophysiological and behavioral consequences of loss of either one or both alleles of VGLUT2. We show that targeted deletion of VGLUT2 in mice causes perinatal lethality and a 95% reduction in evoked glutamatergic responses in thalamic neurons, although hippocampal synapses function normally. Behavioral analysis of heterozygous VGLUT2 mice showed unchanged motor function, learning and memory, acute nociception, and inflammatory pain, but acquisition of neuropathic pain, maintenance of conditioned taste aversion, and defensive marble burying were all impaired. Reduction or loss of VGLUT2 in heterozygous and homozygous VGLUT2 knock-outs led to a graded reduction in the amplitude of the postsynaptic response to single-vesicle fusion in thalamic neurons, indicating that the vesicular VGLUT content is critically important for quantal size and demonstrating that VGLUT2-mediated reduction of excitatory drive affects specific forms of sensory processing.</abstract><cop>United States</cop><pub>Soc Neuroscience</pub><pmid>17108179</pmid><doi>10.1523/JNEUROSCI.2556-06.2006</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Cells, Cultured Chronic Disease Disease Models, Animal Excitatory Postsynaptic Potentials - genetics Genes, Lethal - genetics Glutamic Acid - metabolism Hippocampus - metabolism Hippocampus - physiopathology Hippocampus - ultrastructure Mice Mice, Inbred C57BL Mice, Knockout Neuralgia - genetics Neuralgia - metabolism Neuralgia - physiopathology Pain Measurement - methods Peripheral Nervous System Diseases - genetics Peripheral Nervous System Diseases - metabolism Peripheral Nervous System Diseases - physiopathology Presynaptic Terminals - metabolism Synaptic Transmission - genetics Synaptic Vesicles - metabolism Thalamus - metabolism Thalamus - physiopathology Thalamus - ultrastructure Vesicular Glutamate Transport Protein 2 - genetics Vesicular Glutamate Transport Protein 2 - metabolism
title	Vesicular Glutamate Transporter VGLUT2 Expression Levels Control Quantal Size and Neuropathic Pain
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