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New mechanism regulating auditory sensitivity


Nepalnews
2022 Jul 24, 18:30, Washington [U.S]
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CU Anschutz researchers have identified a new mechanism of how auditory sensitivity is regulated that can temporarily reduce the sensitivity of the auditory system for protection from loud sounds that can cause irreversible damage.

The study, led by CU Anschutz researchers Andrew Mecca and Giusy Caprara in the laboratory of Anthony Peng, tested a decades-old hypothesis which proposed that the gating spring, a tiny, nanometer-scale protein structure which mechanically opens and closes an ion channel in sensory hair cell cells in response to sound vibrations, can act directly as a controller of the channel's activity.

Previous work in the auditory field has focused mostly on understanding mechanisms which target the ion channel. This study provides the first evidence that the gating spring itself has the capacity to modulate the sensitivity of the channel.

"This study documents the first time we understand a mechanism that regulates auditory sensitivity on both the molecular and mechanical levels," says Peng, Ph.D., associate professor at the University of Colorado School of Medicine and senior author of the study. "We uncovered a new mechanism of modulating sensitivity, which opens the door to discovering more about how the auditory system functions generally and uses this to both maximize the range of sounds that we can detect and protect the vital sensory cells from potential damage."

The mechanism discussed in the study works by modifying a physical property of the gating spring, its stiffness, which is responsible for controlling how much the channel opens and closes in response to sound vibrations that enter the inner ear. The researchers studied the properties of the gating spring and the resulting activity of the channel in single sensory hair cells, and found that cyclic adenosine monophosphate (cAMP), a specific type of signaling molecule, reduced the stiffness of the gating spring and decreased the channel's sensitivity -- which is the first time a physiological mechanism for controlling gating spring stiffness has been identified.

"Identifying the underlying mechanism of this process -- how it works physiologically and mechanically, provides an avenue for future research and provides an opportunity for the field to develop a new type of drug that can be used to prevent a type of hearing loss that occurs from exposure to very loud sound," says Peng. Ultimately, they aim to learn more about how the ear can detect such a large range of sounds and how the system protects itself, and this represents a huge step forward for the field.

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