Approximately 1.5 in 1000 children are affected by deafness at birth, 1/2 of which can be attributed to a genetic cause. Treatment for these inherited forms of deafness is quite limited, and consists of hearing amplification for mild to severe hearing loss, and cochlear implantation for severe to profound hearing loss. Gene therapy has been suggested as a potential treatment for genetic hearing loss, but success in this area has remained elusive. Important advances have been made towards hair cell regeneration using virally-mediated gene delivery;however breakthroughs in cellular regeneration likely would not benefit those with genetic deafness because the underlying genetic background would be unchanged. Yet the inner ear remains an attractive target for gene therapy due to advances in surgical access and confinement of fluid space by the bony structure of the cochlea. We have been studying a transgenic mouse that is profoundly deaf after deletion of the vesicular glutamate transporter-3 (VGLUT3) gene, the same gene responsible for the human non-syndromic deafness DFNA25. Our recent work has led to successful restoration of hearing in postnatal mice by local monogenic therapy using an adeno- associated viral vector (AAV-VGLUT3). This novel initial finding provides a powerful incentive to investigation if this therapy can be optimized and generalized to other forms of genetic deafness. The overall goals of this proposal are to optimize the viral-gene delivery method to the cochlea for hearing restoration in the VGLUT3 knockout (KO) mouse, verify that normal synaptic physiology is restored, and determine whether this technique can be generalized to another mouse model of genetic deafness, the otoferlin knockout mouse, a model for the human genetic deafness DFNB9. Results from these studies may provide the foundation for future clinical trials in humans with some forms of genetic deafness.

Public Health Relevance

Genetic deafness is a common disorder with limited available treatment options. This research proposal seeks to develop methods of treatment using gene therapy that can be applied to a broad range of genetic hearing losses. If successful, this has the potential to fundamentally change the manner in which genetic deafness is treated

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Exploratory/Developmental Grants (R21)
Project #
1R21DC012118-01
Application #
8231224
Study Section
Special Emphasis Panel (ZDC1-SRB-L (49))
Program Officer
Cyr, Janet
Project Start
2011-12-16
Project End
2013-11-30
Budget Start
2011-12-16
Budget End
2012-11-30
Support Year
1
Fiscal Year
2012
Total Cost
$238,950
Indirect Cost
$81,750
Name
University of California San Francisco
Department
Otolaryngology
Type
Schools of Medicine
DUNS #
094878337
City
San Francisco
State
CA
Country
United States
Zip Code
94143
Akil, Omar; Lustig, Lawrence R (2013) Mouse Cochlear Whole Mount Immunofluorescence. Bio Protoc 3:
Lustig, Lawrence R; Akil, Omar (2012) Cochlear gene therapy. Curr Opin Neurol 25:57-60
Akil, Omar; Seal, Rebecca P; Burke, Kevin et al. (2012) Restoration of hearing in the VGLUT3 knockout mouse using virally mediated gene therapy. Neuron 75:283-93
Akil, Omar; Lustig, Lawrence R (2012) Severe vestibular dysfunction and altered vestibular innervation in mice lacking prosaposin. Neurosci Res 72:296-305