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Articles, Cellular/Molecular

Atoh1 Directs the Formation of Sensory Mosaics and Induces Cell Proliferation in the Postnatal Mammalian Cochlea In Vivo

Michael C. Kelly, Qing Chang, Alex Pan, Xi Lin and Ping Chen
Journal of Neuroscience 9 May 2012, 32 (19) 6699-6710; DOI: https://doi.org/10.1523/JNEUROSCI.5420-11.2012
Michael C. Kelly
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Qing Chang
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Alex Pan
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Xi Lin
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Ping Chen
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Abstract

Hearing impairment due to the loss of sensory hair cells is permanent in humans. Considerable interest targets the hair cell differentiation factor Atoh1 as a potential tool with which to promote hair cell regeneration. We generated a novel mouse model to direct the expression of Atoh1 in a spatially and temporally specific manner in the postnatal mammalian cochlea to determine the competency of various types of cochlear epithelial cells for hair cell differentiation. Atoh1 can generate cells in young animals with morphological, molecular, and physiological properties reminiscent of hair cells. This competency is cell type specific and progressively restricted with age. Significantly, Atoh1 induces ectopic sensory patches through Notch signaling to form a cellular mosaic similar to the endogenous sensory epithelia and expansion of the sensory mosaic through the conversion of supporting cells and nonautonomous supporting cell production. Furthermore, Atoh1 also activates proliferation within the normally postmitotic cochlear epithelium. These results provide insight into the potential and limitations of Atoh1-mediated hair cell regeneration.

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The Journal of Neuroscience: 32 (19)
Journal of Neuroscience
Vol. 32, Issue 19
9 May 2012
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Atoh1 Directs the Formation of Sensory Mosaics and Induces Cell Proliferation in the Postnatal Mammalian Cochlea In Vivo
Michael C. Kelly, Qing Chang, Alex Pan, Xi Lin, Ping Chen
Journal of Neuroscience 9 May 2012, 32 (19) 6699-6710; DOI: 10.1523/JNEUROSCI.5420-11.2012

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Atoh1 Directs the Formation of Sensory Mosaics and Induces Cell Proliferation in the Postnatal Mammalian Cochlea In Vivo
Michael C. Kelly, Qing Chang, Alex Pan, Xi Lin, Ping Chen
Journal of Neuroscience 9 May 2012, 32 (19) 6699-6710; DOI: 10.1523/JNEUROSCI.5420-11.2012
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