Abstract
Cochlear hair cells convert sound into electrical signals that are relayed via the spiral ganglion neurons to the central auditory pathway. Hair cells are vulnerable to damage caused by excessive noise, aging, and ototoxic agents. Non-mammals can regenerate lost hair cells by mitotic regeneration and direct transdifferentiation of surrounding supporting cells. However, in mature mammals, damaged hair cells are not replaced, resulting in permanent hearing loss. Recent studies have uncovered mechanisms by which sensory organs in non-mammals and the neonatal mammalian cochlea regenerate hair cells, and outlined possible mechanisms why this ability declines rapidly with age in mammals. Here, we review similarities and differences between avian, zebrafish, and mammalian hair cell regeneration. Moreover, we discuss advances and limitations of hair cell regeneration in the mature cochlea and their potential applications to human hearing loss.
Funder
Stanford Maternal and Child Health Research Institute
Natural Sciences and Engineering Research Council of Canada
National Research Foundation of Korea
Ministry of Science and ICT
National Institutes of Health
National Institute on Deafness and Other Communication Disorders
Publisher
Korean Society of Otorhinolaryngology-Head and Neck Surgery
Cited by
2 articles.
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