Add to ORKGHearing depends on precise synaptic transmission between cochlear inner hair cells and spiral ganglion neurons through afferent ribbon synapses. Neuroligins (Nlgns) facilitate synapse maturation in the brain, but they have gone unstudied in the cochlea. We report Nlgn3 and Nlgn1 knockout (KO) cochleae have fewer ribbon synapses and have impaired hearing. Nlgn3 KO is more vulnerable to noise trauma with limited activity at high frequencies one day after noise. Furthermore, Nlgn3 KO cochleae have a 5-fold reduction in synapse number compared to wild type after two weeks of recovery. Double KO cochlear phenotypes are more prominent than the KOs, for example, 5-fold smaller synapses, 25% reduction in synapse density, and 30% less synaptic outpu...
Background: Auditory sensory epithelium of mammals has two types of mechanosensory cells including t...
AbstractRecently, ribbon synapses to the hair cells (HCs) in the cochlea have become a novel site of...
Early cochlear development is marked by an exuberant outgrowth of neurites that innervate multiple t...
In the auditory system, ribbon synapses are vesicle-associated structures located between inner hair...
ObjectiveTo review new insights into the pathophysiology of sensorineural hearing impairment. Specif...
Noise exposure at low levels or low doses can damage hair cell afferent ribbon synapses without caus...
Synaptic ribbons, found at the presynaptic membrane of sensory cells in both ear and eye, have been ...
Noise exposure at low levels or low doses can damage hair cell afferent ribbon synapses without caus...
Sensorineural hearing impairment is the most common form of hearing loss, and encompasses pathologie...
Local and privileged expression of dendritic proteins allows segregation of distinct functions in a ...
Recent studies on animal models have shown that noise exposure that does not lead to permanent thres...
Spontaneous neural activity is a common feature of developing sensory systems and has been implicate...
Noise-exposure at levels low enough to avoid a permanent threshold shift has been found to cause a m...
Ribbon synapses of cochlear hair cells undergo pruning and maturation before the hearing onset. In t...
Synaptic ribbons, found at the presynaptic membrane of sensory cells in both ear and eye, have been ...
Background: Auditory sensory epithelium of mammals has two types of mechanosensory cells including t...
AbstractRecently, ribbon synapses to the hair cells (HCs) in the cochlea have become a novel site of...
Early cochlear development is marked by an exuberant outgrowth of neurites that innervate multiple t...
In the auditory system, ribbon synapses are vesicle-associated structures located between inner hair...
ObjectiveTo review new insights into the pathophysiology of sensorineural hearing impairment. Specif...
Noise exposure at low levels or low doses can damage hair cell afferent ribbon synapses without caus...
Synaptic ribbons, found at the presynaptic membrane of sensory cells in both ear and eye, have been ...
Noise exposure at low levels or low doses can damage hair cell afferent ribbon synapses without caus...
Sensorineural hearing impairment is the most common form of hearing loss, and encompasses pathologie...
Local and privileged expression of dendritic proteins allows segregation of distinct functions in a ...
Recent studies on animal models have shown that noise exposure that does not lead to permanent thres...
Spontaneous neural activity is a common feature of developing sensory systems and has been implicate...
Noise-exposure at levels low enough to avoid a permanent threshold shift has been found to cause a m...
Ribbon synapses of cochlear hair cells undergo pruning and maturation before the hearing onset. In t...
Synaptic ribbons, found at the presynaptic membrane of sensory cells in both ear and eye, have been ...
Background: Auditory sensory epithelium of mammals has two types of mechanosensory cells including t...
AbstractRecently, ribbon synapses to the hair cells (HCs) in the cochlea have become a novel site of...
Early cochlear development is marked by an exuberant outgrowth of neurites that innervate multiple t...