PiN Faculty Member - Jeffrey Holt, PhD

Jeffrey Holt, PhD

Associate Professor of Otology and Laryngology

Boston Children's Hospital
F.M. Kirby Neurobiology Center
Center for Life Science, Room 12-251
3 Blackfan Circle
Boston, MA 02115
Tel: 617-919-3574
Visit my lab page here.

Neuroscience in the inner ear is coming of age. Now, more than ever, there is remarkable opportunity for fundamental discovery in the basic neurobiology of the inner ear as well as opportunity to translate recent discoveries into real world strategies for treating hearing and balance disorders which affect ~30 million people in the U.S., ~250 million worldwide.

We have an active research group focused on the function and dysfunction of the inner ear. Our goal is to understand how stimuli from the external world, such as sound, gravity and head movements are converted into electrical signals, how the information is encoded and how it is transmitted to the brain. We want to understand why genetic mutations cause hearing loss and vestibular dysfunction. We plan to use this information to design novel therapeutic innervations for deafness and balance disorders.

Sensory transduction in the ear beings with nanometer scale movement of mechanosensitive organelles that project from the apical surface of inner ear hair cells. In the auditory system this exquisite sensitivity can initiate signals that encode faint pizzicato from a classical violin. Remarkably, hair cells can also detect stimuli with amplitudes over a million times greater, and thus are able to signal the booming cannons of Tchaikovsky's 1812 Overture as well. This extraordinary dynamic range is the result of a sensory transduction process that utilizes several feedback mechanisms to precisely reposition and tune the mechanosensitive apparatus within the optimal range, allowing detection of auditory stimuli that span the breadth of amplitudes and frequencies humans encounter daily.

Current projects in the lab range from investigations of mechanotransduction and adaptation in hair cells, to firing properties of afferent neurons to development of inner ear function. To gain insight into inner ear structure and function we use electro-physiological techniques to study hair cells and neurons, molecular and genetic techniques to identify and manipulate inner ear genes and proteins, and imaging techniques to study protein localization and function.

Last Update: 8/23/2016


For a complete listing of publications click here.



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