AAV-mediated Gene Cocktails Enhance Supporting Cell Reprogramming and Hair Cell Regeneration

Liyan Zhang, Xin Chen, Xinlin Wang, Yinyi Zhou, Yuan Fang, Xingliang Gu, Ziyu Zhang, Qiuhan Sun, Nianci Li, Lei Xu*, Fangzhi Tan*, Renjie Chai*, Jieyu Qi*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)

Abstract

Mammalian cochlear hair cells (HCs) are essential for hearing, and damage to HCs results in severe hearing impairment. Damaged HCs can be regenerated by neighboring supporting cells (SCs), thus the functional regeneration of HCs is the main goal for the restoration of auditory function in vivo. Here, cochlear SC trans-differentiation into outer and inner HC by the induced expression of the key transcription factors Atoh1 and its co-regulators Gfi1, Pou4f3, and Six1 (GPAS), which are necessary for SCs that are destined for HC development and maturation via the AAV-ie targeting the inner ear stem cells are successfully achieved. Single-cell nuclear sequencing and lineaging tracing results showed that the majority of new Atoh1-derived HCs are in a state of initiating differentiation, while GP (Gfi1, Pou4f3) and GPS (Gfi1, Pou4f3, and Six1) enhanced the Atoh1-induced new HCs into inner and outer HCs. Moreover, the patch-clamp analysis indicated that newborn inner HCs induced by GPAS forced expression have similar electrophysiological characteristics to those of native inner HCs. Also, GPAS can induce HC regeneration in the HC-damaged mice model. In summary, the study demonstrates that AAV-mediated co-regulation of multiple genes, such as GPAS, is an effective means to achieve functional HC regeneration in the mouse cochlea.

Original languageEnglish
Article number2304551
JournalAdvanced Science
Volume11
Issue number29
DOIs
Publication statusPublished - 7 Aug 2024

Keywords

  • AAV
  • hair cell regeneration
  • multi-gene co-regulation

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