Sensorineural deafness and seizures in mice lacking vesicular glutamate transporter 3.

Abstract	The expression of unconventional vesicular glutamate transporter VGLUT3 by neurons known to release a different classical transmitter has suggested novel roles for signaling by glutamate, but this distribution has raised questions about whether the protein actually contributes to glutamate release. We now report that mice lacking VGLUT3 are profoundly deaf due to the absence of glutamate release from hair cells at the first synapse in the auditory pathway. The early degeneration of some cochlear ganglion neurons in knockout mice also indicates an important developmental role for the glutamate released by hair cells before the onset of hearing. In addition, the mice exhibit primary, generalized epilepsy that is accompanied by remarkably little change in ongoing motor behavior. The glutamate release conferred by expression of VGLUT3 thus has an essential role in both function and development of the auditory pathway, as well as in the control of cortical excitability.
Authors	Rebecca P Seal, Omar Akil, Eunyoung Yi, Christopher M Weber, Lisa Grant, Jong Yoo, Amanda Clause, Karl Kandler, Jeffrey L Noebels, Elisabeth Glowatzki, Lawrence R Lustig, Robert H Edwards
Journal	Neuron (Neuron) Vol. 57 Issue 2 Pg. 263-75 (Jan 24 2008) ISSN: 0896-6273 [Print] United States
PMID	18215623 (Publication Type: Journal Article, Research Support, N.I.H., Extramural, Research Support, Non-U.S. Gov't)
Chemical References	Amino Acid Transport Systems, Acidic Excitatory Amino Acid Antagonists Membrane Proteins Quinoxalines otoferlin protein, mouse vesicular glutamate transporter 3, mouse 2,3-dioxo-6-nitro-7-sulfamoylbenzo(f)quinoxaline Glutamic Acid Calcium
Topics	Acoustic Stimulation (methods) Amino Acid Transport Systems, Acidic (deficiency) Animals Animals, Newborn Calcium (metabolism) Disease Models, Animal Electric Stimulation (methods) Electroencephalography (methods) Excitatory Amino Acid Antagonists (pharmacology) Glutamic Acid (metabolism) Hair Cells, Auditory (metabolism) Hearing Loss, Sensorineural (etiology, genetics, pathology) Membrane Potentials (drug effects, physiology, radiation effects) Membrane Proteins (metabolism) Mice Mice, Knockout Microscopy, Electron, Transmission (methods) Neurons (pathology, ultrastructure) Quinoxalines (pharmacology) Reflex, Startle (physiology) Seizures (etiology, genetics) Spiral Ganglion (pathology)

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