Publication date: 21 February 2017
Source:Cell Reports, Volume 18, Issue 8
Author(s): Will J. McLean, Xiaolei Yin, Lin Lu, Danielle R. Lenz, Dalton McLean, Robert Langer, Jeffrey M. Karp, Albert S.B. Edge
Death of cochlear hair cells, which do not regenerate, is a cause of hearing loss in a high percentage of the population. Currently, no approach exists to obtain large numbers of cochlear hair cells. Here, using a small-molecule approach, we show significant expansion (>2,000-fold) of cochlear supporting cells expressing and maintaining Lgr5, an epithelial stem cell marker, in response to stimulation of Wnt signaling by a GSK3β inhibitor and transcriptional activation by a histone deacetylase inhibitor. The Lgr5-expressing cells differentiate into hair cells in high yield. From a single mouse cochlea, we obtained over 11,500 hair cells, compared to less than 200 in the absence of induction. The newly generated hair cells have bundles and molecular machinery for transduction, synapse formation, and specialized hair cell activity. Targeting supporting cells capable of proliferation and cochlear hair cell replacement could lead to the discovery of hearing loss treatments.
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Generation of hair cells after damage to the cochlea is a potential treatment for deafness. McLean et al. demonstrate that Lgr5+ supporting cells dissociated from the cochlear sensory epithelium form organoids and differentiate into hair cells in high yield after treatment with a combination of growth factors and drugs.http://ift.tt/2l76Hjf
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