AAV-ie-K558R mediated cochlear gene therapy and hair cell regeneration

Yong Tao; Xiaoyi Liu; Liu Yang; Cenfeng Chu; Fangzhi Tan; Zehua Yu; Junzi Ke; Xiang Li; Xiaofei Zheng; Xingle Zhao; Jieyu Qi; Chao Po Lin; Renjie Chai; Guisheng Zhong; Hao Wu

doi:10.1038/s41392-022-00938-8

AAV-ie-K558R mediated cochlear gene therapy and hair cell regeneration

Yong Tao, Xiaoyi Liu, Liu Yang, Cenfeng Chu, Fangzhi Tan, Zehua Yu, Junzi Ke, Xiang Li, Xiaofei Zheng, Xingle Zhao, Jieyu Qi, Chao Po Lin, Renjie Chai^*, Guisheng Zhong^*, Hao Wu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

The cochlea consists of multiple types of cells, including hair cells, supporting cells and spiral ganglion neurons, and is responsible for converting mechanical forces into electric signals that enable hearing. Genetic and environmental factors can result in dysfunctions of cochlear and auditory systems. In recent years, gene therapy has emerged as a promising treatment in animal deafness models. One major challenge of the gene therapy for deafness is to effectively deliver genes to specific cells of cochleae. Here, we screened and identified an AAV-ie mutant, AAV-ie-K558R, that transduces hair cells and supporting cells in the cochleae of neonatal mice with high efficiency. AAV-ie-K558R is a safe vector with no obvious deficits in the hearing system. We found that AAV-ie-K558R can partially restore the hearing loss in Prestin KO mice and, importantly, deliver Atoh1 into cochlear supporting cells to generate hair cell-like cells. Our results demonstrate the clinical potential of AAV-ie-K558R for treating the hearing loss caused by hair cell death.

Original language	English
Article number	109
Journal	Signal Transduction and Targeted Therapy
Volume	7
Issue number	1
DOIs	https://doi.org/10.1038/s41392-022-00938-8
Publication status	Published - Dec 2022
Externally published	Yes

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title = "AAV-ie-K558R mediated cochlear gene therapy and hair cell regeneration",

abstract = "The cochlea consists of multiple types of cells, including hair cells, supporting cells and spiral ganglion neurons, and is responsible for converting mechanical forces into electric signals that enable hearing. Genetic and environmental factors can result in dysfunctions of cochlear and auditory systems. In recent years, gene therapy has emerged as a promising treatment in animal deafness models. One major challenge of the gene therapy for deafness is to effectively deliver genes to specific cells of cochleae. Here, we screened and identified an AAV-ie mutant, AAV-ie-K558R, that transduces hair cells and supporting cells in the cochleae of neonatal mice with high efficiency. AAV-ie-K558R is a safe vector with no obvious deficits in the hearing system. We found that AAV-ie-K558R can partially restore the hearing loss in Prestin KO mice and, importantly, deliver Atoh1 into cochlear supporting cells to generate hair cell-like cells. Our results demonstrate the clinical potential of AAV-ie-K558R for treating the hearing loss caused by hair cell death.",

author = "Yong Tao and Xiaoyi Liu and Liu Yang and Cenfeng Chu and Fangzhi Tan and Zehua Yu and Junzi Ke and Xiang Li and Xiaofei Zheng and Xingle Zhao and Jieyu Qi and Lin, {Chao Po} and Renjie Chai and Guisheng Zhong and Hao Wu",

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year = "2022",

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doi = "10.1038/s41392-022-00938-8",

language = "English",

volume = "7",

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T1 - AAV-ie-K558R mediated cochlear gene therapy and hair cell regeneration

AU - Tao, Yong

AU - Liu, Xiaoyi

AU - Yang, Liu

AU - Chu, Cenfeng

AU - Tan, Fangzhi

AU - Yu, Zehua

AU - Ke, Junzi

AU - Li, Xiang

AU - Zheng, Xiaofei

AU - Zhao, Xingle

AU - Qi, Jieyu

AU - Lin, Chao Po

AU - Chai, Renjie

AU - Zhong, Guisheng

AU - Wu, Hao

PY - 2022/12

Y1 - 2022/12

N2 - The cochlea consists of multiple types of cells, including hair cells, supporting cells and spiral ganglion neurons, and is responsible for converting mechanical forces into electric signals that enable hearing. Genetic and environmental factors can result in dysfunctions of cochlear and auditory systems. In recent years, gene therapy has emerged as a promising treatment in animal deafness models. One major challenge of the gene therapy for deafness is to effectively deliver genes to specific cells of cochleae. Here, we screened and identified an AAV-ie mutant, AAV-ie-K558R, that transduces hair cells and supporting cells in the cochleae of neonatal mice with high efficiency. AAV-ie-K558R is a safe vector with no obvious deficits in the hearing system. We found that AAV-ie-K558R can partially restore the hearing loss in Prestin KO mice and, importantly, deliver Atoh1 into cochlear supporting cells to generate hair cell-like cells. Our results demonstrate the clinical potential of AAV-ie-K558R for treating the hearing loss caused by hair cell death.

AB - The cochlea consists of multiple types of cells, including hair cells, supporting cells and spiral ganglion neurons, and is responsible for converting mechanical forces into electric signals that enable hearing. Genetic and environmental factors can result in dysfunctions of cochlear and auditory systems. In recent years, gene therapy has emerged as a promising treatment in animal deafness models. One major challenge of the gene therapy for deafness is to effectively deliver genes to specific cells of cochleae. Here, we screened and identified an AAV-ie mutant, AAV-ie-K558R, that transduces hair cells and supporting cells in the cochleae of neonatal mice with high efficiency. AAV-ie-K558R is a safe vector with no obvious deficits in the hearing system. We found that AAV-ie-K558R can partially restore the hearing loss in Prestin KO mice and, importantly, deliver Atoh1 into cochlear supporting cells to generate hair cell-like cells. Our results demonstrate the clinical potential of AAV-ie-K558R for treating the hearing loss caused by hair cell death.

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DO - 10.1038/s41392-022-00938-8

M3 - Article

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AN - SCOPUS:85128669313

SN - 2095-9907

VL - 7

JO - Signal Transduction and Targeted Therapy

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IS - 1

M1 - 109

ER -

AAV-ie-K558R mediated cochlear gene therapy and hair cell regeneration

Abstract

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