Monaural conductive hearing loss alters the expression of the GluA3 AMPA and glycine receptor α1 subunits in bushy and fusiform cells of the cochlear nucleus
Author:
Publisher
Elsevier BV
Subject
General Neuroscience
Reference72 articles.
1. Ultrastructural and immunocytochemical characterization of neurons in the rat ventral cochlear nucleus projecting to the inferior colliculus;Alibardi;Ann Anat,1998
2. Ultrastructural distribution of glycinergic and GABAergic neurons and axon terminals in the rat dorsal cochlear nucleus, with emphasis on granule cell areas;Alibardi;J Anat,2003
3. Stimulation by cochlear implant in unilaterally deaf rats reverses the decrease of inhibitory transmission in the inferior colliculus;Argence;Eur J Neurosci,2008
4. Tinnitus and inferior colliculus activity in chinchillas related to three distinct patterns of cochlear trauma;Bauer;J Neurosci Res,2008
5. Ventral cochlear nucleus responses to contralateral sound are mediated by commissural and olivocochlear pathways;Bledsoe;J Neurophysiol,2009
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1. GluA3 subunits are required for appropriate assembly of AMPAR GluA2 and GluA4 subunits on cochlear afferent synapses and for presynaptic ribbon modiolar–pillar morphology;eLife;2023-01-17
2. Postsynaptic GluA3 subunits are required for the appropriate assembly of AMPA receptor GluA2 and GluA4 subunits on mammalian cochlear afferent synapses and for presynaptic ribbon modiolar-pillar morphological distinctions;2022-06-26
3. Increasing endogenous activity of NMDARs on GABAergic neurons increases inhibition, alters sensory processing and prevents noise-induced tinnitus;Scientific Reports;2020-07-20
4. Role of GluA3 AMPA Receptor Subunits in the Presynaptic and Postsynaptic Maturation of Synaptic Transmission and Plasticity of Endbulb−Bushy Cell Synapses in the Cochlear Nucleus;The Journal of Neuroscience;2020-02-12
5. Chronic Conductive Hearing Loss Is Associated With Speech Intelligibility Deficits in Patients With Normal Bone Conduction Thresholds;Ear & Hearing;2019-09-05
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