Cell proliferation during hair cell regeneration induced by Math1in vestibular epithelia in vitro

Hair cell regeneration is the fundamental method of correcting hearing loss and balance disorders caused by hair cell damage or loss. How to promote hair cell regeneration is a hot focus in current research. In mammals, cochlear hair cells cannot be regenerated and few vestibular hair cells can be renewed through spontaneous regeneration. However, Math 1 gene transfer allows a few inner ear cells to be transformed into hair cells in vitro or in vivo. Hair cells can be renewed through two possible means in birds: supporting cell differentiation and transdifferentiation with or without cell division. Hair cell regeneration is strongly associated with cell proliferation. Therefore, this study explored the relationship between Math 1 -induced vestibular hair cell regeneration and cell division in mammals. The mouse vestibule was isolated to harvest vestibular epithelial cells. Ad-Math 1 -enhanced green fluorescent protein (EGFP) was used to track cell division during hair cell transformation. 5-Bromo-2'-deoxyuridine (BrdU) was added to track cell proliferation at various time points. Immunocytochemistry was utilized to determine cell differentiation and proliferation. Results demonstrated that when epithelial cells were in a higher proliferative stage, more of these cells differentiated into hair cells by Math 1 gene transfer. However, in the low proliferation stage, no BrdU-positive cells were seen after Math 1 gene transfer. Cell division always occurred before Math 1 transfection but not during or after Math 1 transfection, when cells were labeled with BrdU before and after Ad-Math 1 -EGFP transfection. These results confirm that vestibular epithelial cells with high proliferative potential can differentiate into new hair cells by Math 1 gene transfer, but this process is independent of cell proliferation.