Lawrence R. Lustig scite author profile

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.

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Restoration of Hearing in the VGLUT3 Knockout Mouse Using Virally Mediated Gene Therapy

Akil

Seal

Burke

et al. 2012

Neuron

334

364

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Summary Mice lacking the vesicular glutamate transporter-3 (VGLUT3) are congenitally deaf due to loss of glutamate release at the inner hair cell afferent synapse. Cochlear delivery of VGLUT3 using adeno-associated virus-1 (AAV1) leads to transgene expression in only inner hair cells (IHC), despite broader viral uptake. Within two weeks of AAV1-VGLUT3 delivery, acoustic brainstem response (ABR) thresholds normalize, along with partial rescue of the startle response. Lastly, we demonstrate partial reversal of the morphologic changes seen within the afferent IHC ribbon synapse. These findings represent the first successful restoration of hearing by gene replacement in mice, which is an important step towards gene therapy of human deafness.

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Congenital hearing loss

Korver

Smith

Camp

et al. 2017

Nat Rev Dis Primers

421

310

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Congenital hearing loss (hearing loss present at birth) is one of the most prevalent chronic conditions in children. In the majority of developed countries, neonatal hearing-screening programmes enable early detection; early intervention will prevent delays in speech and language development and have long-lasting beneficial effects on social and emotional development and quality of life. A hearing loss diagnosis is usually followed by a search for an underlying aetiology. Congenital hearing loss might be attributed to environmental and prenatal factors, which prevail in low-income settings; congenital infections, particularly cytomegalovirus, are also a common risk factor for hearing loss. Genetic causes probably account for the majority of cases in developed countries; mutations can affect any component of the hearing pathway, in particular inner ear homeostasis (endolymph production and maintenance) and mechano-electrical transduction (conversion of a mechanical stimulus into electrochemical activity). Once the underlying cause of hearing loss is established, it might direct therapeutic decision-making and guide prevention and (genetic) counseling. Management options include specific antimicrobial therapies, surgical treatment of cranio-facial abnormalities and hearing aids. An improved understanding of the pathophysiology and molecular mechanisms underlying hearing loss and increased awareness of recent advances in genetic testing will promote the development of new treatment and screening strategies.

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Dehiscence of Bone Overlying the Superior Canal as a Cause of Apparent Conductive Hearing Loss

Minor

Carey²,

Cremer

et al. 2003

Otology & Neurotology

259

226

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Comparison of the Bone Anchored Hearing Aid Implantable Hearing Device with Contralateral Routing of Offside Signal Amplification in the Rehabilitation of Unilateral Deafness

Niparko¹,

Cox²,

Lustig³

2003

Otology & Neurotology

227

225

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Preliminary data in subjects with normal monaural hearing indicate that vibromechanical stimulation with the bone anchored hearing aid overcomes some of the negative head shadow effects in unilateral deafness. The bone anchored hearing aid system, when placed on the side of a deaf ear, yields greater benefit in subjects with normal monaural hearing than does contralateral routing of offside signal amplification. It seems that this rehabilitative approach can expand the sound field of monaural listeners in further enhancing speech understanding. Observations suggest that further understanding of bone conduction as implemented in transcranial stimulation will guide further options for patients with monaural hearing. Longer follow-up will help to determine whether communicative skill improvements with the bone anchored hearing aid outweigh the disadvantages of implantation surgery, costs, and device maintenance.

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