Therapeutic potential of a gamma-secretase inhibitor for hearing restoration in a guinea pig model with noise-induced hearing loss

Tona, Yosuke; Hamaguchi, Kozo; Ishikawa, Masaaki; Miyoshi, Takushi; Yamamoto, Norio; Yamahara, Kohei; Ito, Juichi; Nakagawa, Takayuki

doi:10.1186/1471-2202-15-66

Cited by 45 publications

(45 citation statements)

References 25 publications

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“…The result demonstrated the successful transdifferentiation of supporting cells to hair cells that were functional (38). Similar findings were recently reported by Tona et al (41). …”

Section: In Vivo Transdifferentiation Of Supporting Cells To Hair Celsupporting

confidence: 93%

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Manipulating cell fate in the cochlea: a feasible therapy for hearing loss

Fujioka

2015

Trends in Neurosciences

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Mammalian auditory hair cells do not spontaneously regenerate, unlike hair cells in lower vertebrates including fish and birds. In mammals, hearing loss due to the loss of hair cells is thus permanent and intractable. Recent studies in the mouse have demonstrated spontaneous hair cell regeneration during a short postnatal period, but this regenerative capacity is lost in the adult cochlea. Reduced regeneration coincides with a transition that results in a decreased pool of progenitor cells in the cochlear sensory epithelium. Here, we review the signaling cascades involved in hair cell formation and morphogenesis of the organ of Corti in developing mammals, the changing status of progenitor cells in the cochlea, and the regeneration of auditory hair cells in adult mammals.

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“…The result demonstrated the successful transdifferentiation of supporting cells to hair cells that were functional (38). Similar findings were recently reported by Tona et al (41). …”

Section: In Vivo Transdifferentiation Of Supporting Cells To Hair Celsupporting

confidence: 93%

“…Transdifferentiation approaches have now been tested with small molecules with the goal of future clinical use (38, 41). We successfully induced hair cells using LY411575, a potent γ-secretase inhibitor (Fig.…”

Section: In Vivo Transdifferentiation Of Supporting Cells To Hair Celmentioning

confidence: 99%

Manipulating cell fate in the cochlea: a feasible therapy for hearing loss

Fujioka

2015

Trends in Neurosciences

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“…Nevertheless, various approaches may be able to overcome this problem. Following on from promising work using Notch inhibitors in embryonic or neonatal systems, two studies have shown that localised treatment with inhibitors of Notch signalling can rescue both outer hair cell number (via direct transdifferentiation of supporting cells) and some limited hearing function in the noise-damaged mature mammalian cochlea [49,50]. Indeed, the importance of Notch signalling in the regenerative process has been underlined by a comprehensive transcriptome analysis of the regenerating chick utricle [51].…”

Section: Sensory Hair Cell Regenerationmentioning

confidence: 97%

Development of the inner ear

Whitfield¹

2015

Current Opinion in Genetics & Development

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The vertebrate inner ear is a sensory organ of exquisite design and sensitivity. It responds to sound, gravity and movement, serving both auditory (hearing) and vestibular (balance) functions. Almost all cell types of the inner ear, including sensory hair cells, sensory neurons, secretory cells and supporting cells, derive from the otic placode, one of the several ectodermal thickenings that arise around the edge of the anterior neural plate in the early embryo. The developmental patterning mechanisms that underlie formation of the inner ear from the otic placode are varied and complex, involving the reiterative use of familiar signalling pathways, together with roles for transcription factors, transmembrane proteins, and extracellular matrix components. In this review, I have selected highlights that illustrate just a few of the many recent discoveries relating to the development of this fascinating organ system.

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“…Building on these findings, two recent studies examined the damaged neonatal mouse cochlea and demonstrated a similar ability of supporting cells to regenerate nascent hair cells after Notch inhibition (Bramhall et al, 2014;Korrapati et al, 2013). This pharmacological approach has also been applied to the damaged, mature mammalian cochlea, but yielded a significantly less robust regenerative response (Mizutari et al, 2013;Tona et al, 2014); unlike the effects observed in the zebrafish lateral line system and chick cochlea, the regenerated hair cells were attributed to direct transdifferentiation of supporting cells, as no cell proliferation was found. Although it is commonly postulated that the regeneration of a functional organ of Corti requires the coordination of supporting cell proliferation and hair cell differentiation such that a balanced ratio of sensory and non-sensory cell types is maintained, a modest functional improvement was observed using this pharmacological approach (Mizutari et al, 2013).…”

Section: Kip1mentioning

confidence: 99%

Sensory hair cell development and regeneration: similarities and differences

et al. 2015

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Sensory hair cells are mechanoreceptors of the auditory and vestibular systems and are crucial for hearing and balance. In adult mammals, auditory hair cells are unable to regenerate, and damage to these cells results in permanent hearing loss. By contrast, hair cells in the chick cochlea and the zebrafish lateral line are able to regenerate, prompting studies into the signaling pathways, morphogen gradients and transcription factors that regulate hair cell development and regeneration in various species. Here, we review these findings and discuss how various signaling pathways and factors function to modulate sensory hair cell development and regeneration. By comparing and contrasting development and regeneration, we also highlight the utility and limitations of using defined developmental cues to drive mammalian hair cell regeneration.

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Therapeutic potential of a gamma-secretase inhibitor for hearing restoration in a guinea pig model with noise-induced hearing loss

Cited by 45 publications

References 25 publications

Manipulating cell fate in the cochlea: a feasible therapy for hearing loss

Manipulating cell fate in the cochlea: a feasible therapy for hearing loss

Development of the inner ear

Sensory hair cell development and regeneration: similarities and differences

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