Scientists discover natural repair process that fixes damaged hearing
cells

Date:
July 10, 2023
Source:
University of Virginia Health System
Summary:
The findings could benefit efforts to develop new ways to treat
and prevent hearing loss, including age-related hearing loss.


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FULL STORY ========================================================================== University of Virginia School of Medicine researchers have discovered how
the cells that let us hear can repair themselves after being damaged. That important insight could benefit efforts to develop new and better ways
to treat and prevent hearing loss.

"Hair cells" found in the inner ear, are important both for our ability
to hear and our sense of balance. They are known as hair cells because
the cells are covered in hair-like structures that serve as mechanical
antennas for sound detection. When auditory hair cells are killed, as we
learn in school, they are gone for good. But the new UVA Health research
shows these delicate cells have the ability to repair themselves from
damage caused by loud noises or other forms of stress.

"For many years, auditory research has placed considerable emphasis on
the regeneration of sensory hair cells. Although these efforts continue,
it is equally important to enhance our comprehension of the intrinsic mechanisms that govern the repair and maintenance of these cells. By
gaining a deeper understanding of these inherent repair processes, we
can uncover strategies to fortify them effectively. One such approach in
the future might involve the utilization of drugs that stimulate repair programs," said researcher Jung-Bum Shin, PhD, of UVA's Department
of Neuroscience. "In essence, when replacement of hair cells proves challenging, the focus shifts towards repairing them instead. This dual strategy of regeneration and repair holds strong potential in advancing treatments for hearing loss and associated conditions." Hearing Repair
Hair cells are naturally fragile -- they must be delicate so they can
sense sound, but they also must withstand the continuous mechanical
stress inherent in their jobs.

Prolonged exposure to loud noise harms hair cells in a variety of ways,
and one of those is by damaging the cores of the "hairs" themselves. These hair-like structures are known as stereocilia, and Shin's new research
shows a process they use to repair themselves.

The hair cells do this by deploying a protein called XIRP2, which has
the ability to sense damage to the cores, which are made of a substance
called actin. Shin and his team found that XIRP2 first senses damage, then migrates to the damage site and repairs the cores by filling in new actin.

"We are especially excited to have identified a novel mechanism by which
XIRP2 can sense damage-associated distortions of the actin backbone,"
Shin said.

"This is of relevance not only for hair cell research, but the broader
cell biology discipline." The pioneering work has netted Shin and his colleagues more than $2.3 million from the National Institutes of Health,
grant R01DC021176, to fund additional research into how the cores are
repaired. By understanding this, scientists will be better positioned
to develop new ways to battle hearing loss -- even the kind that comes
from aging, the researchers say.

"Age-related hearing loss affects at least a third of all older adults,"
Shin said. "Understanding and harnessing internal mechanisms by which
hair cells counteract wear and tear will be crucial in identifying ways
to prevent age- related hearing loss. Furthermore, this knowledge holds potential implications for associated conditions such as Alzheimer's
disease and other dementia conditions." Findings Published The
researchers have published their findings in the scientific journal eLife.

The article is open access, meaning it is free to read.

The research team consisted of Elizabeth L. Wagner, Jun-Sub Im,
Stefano Sala, Maura I. Nakahata, Terence E. Imbery, Sihan Li, Daniel
Chen, Katherine Nimchuk, Yael Noy, David W. Archer, Wenhao Xu, George Hashisaki, Karen B. Avraham, Patrick W. Oakes and Shin. The researchers
have no financial interest in the work.

The research was supported by the National Institutes of Health's
National Institute on Deafness and Other Communication Disorders,
grants R01DC014254, R56DC017724, R01DC018842, R01DC011835 and
1F31DC017370-01. Additional support was provided by the Owens Family Foundation, the Virginia Lions Hearing Foundation, and a National Science Foundation CAREER Award.

* RELATED_TOPICS
o Health_&_Medicine
# Hearing_Loss # Hair_Loss # Diseases_and_Conditions #
Stem_Cells
o Mind_&_Brain
# Hearing_Impairment # Perception #
Disorders_and_Syndromes # Dementia
* RELATED_TERMS
o Hearing_impairment o Wound o Premature_birth o
Local_anesthetic o Urinary_incontinence o Hyperthyroidism o
Blood_transfusion o Auditory_system

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========================================================================== Journal Reference:
1. Elizabeth L Wagner, Jun-Sub Im, Stefano Sala, Maura I Nakahata,
Terence E
Imbery, Sihan Li, Daniel Chen, Katherine Nimchuk, Yael Noy,
David W Archer, Wenhao Xu, George Hashisaki, Karen B Avraham,
Patrick W Oakes, Jung-Bum Shin. Repair of noise-induced damage to
stereocilia F-actin cores is facilitated by XIRP2 and its novel
mechanosensor domain. eLife, 2023; 12 DOI: 10.7554/eLife.72681 ==========================================================================

Link to news story: https://www.sciencedaily.com/releases/2023/07/230710113811.htm

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