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Title: Regeneration of cochlear hair cells with Atoh1 gene therapy after noise-induced hearing loss
Authors: Wise, Andrew
Flynn, Brianna
Atkinson, Patrick
Fallon, James
Nicholson, Madeline
Richardson, Rachael
Keywords: Atoh1
cochlea
deafness
gene therapy
hair cells
noise
regeneration
supporting cells
Issue Date: Jun-2015
Publisher: SciTechnol
Citation: AK Wise, BO Flynn, PJ Atkinson, JB Fallon, M Nicholson and RT Richardson (2015). Regeneration of cochlear hair cells with Atoh1 gene therapy after noise-induced hearing loss. Journal of Regenerative Medicine 4:1
Abstract: Background: Degeneration of hair cells in the mammalian cochlea results in irreversible hearing loss with no current treatment options to regain lost hair cell function. The Atoh1 gene is necessary for hair cell development and recent research has shown that Atoh1 gene therapy promotes new hair cell formation and hearing restoration in adult rodent deafness models. Objective: The aim of this study was to examine new hair cell formation via Atoh1 gene therapy in noise-deafened adult guinea pigs. Methods: Guinea pigs were deafened by noise exposure (130 dB, 11-13 kHz, 2 hours). After two weeks, the left cochleae were injected with an adenoviral vector containing the Atoh1 gene. Control animals were injected with a control adenoviral vector. Three weeks after injection cochleae were assessed for hair cell density, maturity and hair cell synaptogenesis with auditory neurons. Hearing thresholds were assessed throughout. Results: There were significantly more myosinVIIa-positive hair cells in cochleae that received Atoh1 gene therapy compared to contralateral cochleae and compared to cochleae that received control gene therapy (p<0.05 one way ANOVA). However, the number of hair cells in Atoh1-treated animals was far below normal. Expression of Atoh1 had a significant preservation effect on the cytoarchitecture of the sensory epithelium compared to controls (p<0.001 one way ANOVA). Expression of the synaptic protein CtBP2 was present in some transfected cells from Atoh1-injected guinea pigs but at a reduced density compared to normal cochleae. There was evidence of auditory neuron preservation near transfected hair cells in Atoh1-injected cochleae (p<0.05 one way ANOVA), but there were no improvements in hearing thresholds. Conclusion: This study supports growing evidence that new hair cell formation is possible in mature cochleae that have been severely damaged, in this case by noise, and demonstrates a protective influence of Atoh1 gene therapy on the immediate surrounding cellular environment.
URI: http://repository.bionicsinstitute.org:8080/handle/123456789/146
Appears in Collections:Bionic Hearing Research Publications

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