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Sensory hair cells regenerated, hearing restored in noise-damaged mammal ear

Date:
January 9, 2013
Source:
Massachusetts Eye and Ear Infirmary
Summary:
Researchers have demonstrated for the first time that hair cells can be regenerated in an adult mammalian ear by using a drug to stimulate resident cells to become new hair cells, resulting in partial recovery of hearing in mouse ears damaged by noise trauma. This finding holds great potential for future therapeutic application that may someday reverse deafness in humans.

Normal inner and outer hair cells.
Credit: Neuron, Mizutari et al.

Hearing loss is a significant public health problem affecting almost 50 million people in the United States alone. Sensorineural hearing loss is the most common form and is caused by the loss of sensory hair cells in the cochlea. Hair cell loss results from a variety of factors including noise exposure, aging, toxins, infections, and certain antibiotics and anti-cancer drugs. Although hearing aids and cochlear implants can ameliorate the symptoms somewhat, there are no known treatments to restore hearing, because auditory hair cells in mammals, unlike those in birds or fish, do not regenerate once lost. Auditory hair cell replacement holds great promise as a treatment that could restore hearing after loss of hair cells.

In the Jan. 10 issue of Neuron, Massachusetts Eye and Ear and Harvard Medical School researchers demonstrate for the first time that hair cells can be regenerated in an adult mammalian ear by using a drug to stimulate resident cells to become new hair cells, resulting in partial recovery of hearing in mouse ears damaged by noise trauma. This finding holds great potential for future therapeutic application that may someday reverse deafness in humans.

"Hair cells are the primary receptor cells for sound and are responsible for the sense of hearing," explains senior author, Dr. Albert Edge, of Harvard Medical School and Mass. Eye and Ear. "We show that hair cells can be generated in a damaged cochlea and that hair cell replacement leads to an improvement in hearing."

In the experiment, the researchers applied a drug to the cochlea of deaf mice. The drug had been selected for its ability to generate hair cells when added to stem cells isolated from the ear. It acted by inhibiting an enzyme called gamma-secretase that activates a number of cellular pathways. The drug applied to the cochlea inhibited a signal generated by a protein called Notch on the surface of cells that surround hair cells. These supporting cells turned into new hair cells upon treatment with the drug. Replacing hair cells improved hearing in the mice, and the improved hearing could be traced to the areas in which supporting cells had become new hair cells.

"The missing hair cells had been replaced by new hair cells after the drug treatment, and analysis of their location allowed us to correlate the improvement in hearing to the areas where the hair cells were replaced," Dr. Edge said.

This is the first demonstration of hair cell regeneration in an adult mammal. "We're excited about these results because they are a step forward in the biology of regeneration and prove that mammalian hair cells have the capacity to regenerate," Dr. Edge said. "With more research, we think that regeneration of hair cells opens the door to potential therapeutic applications in deafness."

Funding sources: This work was supported by grants RO1 DC007174, R21 DC010440 and P30 DC05209 from the National Institute on Deafness and other Communicative Disorders (NIDCD); by the Tillotson Corporation, the Shulsky Foundation, and Robert Boucai; by the Mochida Memorial Foundation for Medical and Pharmaceutical Research; and by Grants for International Activities in Life Sciences and Medicine, Keio University Medical Science Fund.


Story Source:

The above story is based on materials provided by Massachusetts Eye and Ear Infirmary. Note: Materials may be edited for content and length.


Journal Reference:

  1. Kunio Mizutari, Masato Fujioka, Makoto Hosoya, Naomi Bramhall, HirotakaJames Okano, Hideyuki Okano, AlbertS.B. Edge. Notch Inhibition Induces Cochlear Hair Cell Regeneration and Recovery of Hearing after Acoustic Trauma. Neuron, 2013; 77 (1): 58 DOI: 10.1016/j.neuron.2012.10.032

Cite This Page:

Massachusetts Eye and Ear Infirmary. "Sensory hair cells regenerated, hearing restored in noise-damaged mammal ear." ScienceDaily. ScienceDaily, 9 January 2013. <www.sciencedaily.com/releases/2013/01/130109124201.htm>.
Massachusetts Eye and Ear Infirmary. (2013, January 9). Sensory hair cells regenerated, hearing restored in noise-damaged mammal ear. ScienceDaily. Retrieved September 18, 2014 from www.sciencedaily.com/releases/2013/01/130109124201.htm
Massachusetts Eye and Ear Infirmary. "Sensory hair cells regenerated, hearing restored in noise-damaged mammal ear." ScienceDaily. www.sciencedaily.com/releases/2013/01/130109124201.htm (accessed September 18, 2014).

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