Harvard scientists have made an unexpected and potentially useful discovery that the sound-sensing cells of the mammalian ear—called hair cells–can be replaced, at least at low levels. Despite years of evidence indicating that ear sensory cells do not regenerate if lost, new research from the laboratory of Albert Edge, PhD, shows that it is possible for newborn mice.
The next step is to learn if the findings can be applied to older animals, which may lead to ways to help stimulate cell replacement in adults and to the design of new treatment strategies for people suffering from deafness due to hair cell loss. “The finding that newborn hair cells regenerate spontaneously is novel,” said Edge, a Harvard Stem Cell Institute (HSCI) Affiliated Faculty member at Harvard Medical School and the Massachusetts Eye and Ear Infirmary.
The team’s previous research revealed that the induced inhibition of a set of proteins that control neuron division—known as the Notch signaling pathway—increases hair cell differentiation, and can help restore hearing to mice with noise-induced deafness.
In their latest work, published in Stem Cell Reports, the investigators found that blocking the Notch pathway in supporting cells near the ear that express a protein called Lgr5 can also lead to hair cell differentiation, mimicking the natural hair cell regeneration observed in the newborn mice.
“By using an inhibitor of Notch signaling, we could push even more cells to differentiate into hair cells,” said Edge.
Combining this new knowledge about Lgr5-expressing cells with the previous finding that Notch inhibition can regenerate hair cells will allow the scientists to design new hair cell regeneration strategies to treat hearing loss and deafness.
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