Affiliation:
1. Case Western Reserve University
2. National Institute on Deafness and Other Communication Disorders
3. University Hospitals of Cleveland
Abstract
Abstract
The mechanotransduction (MET) channel of the inner ear sensory receptor cells, termed hair cells, is a central protein complex that enables our senses of hearing and balance. Hair cell MET requires an elaborate interplay of multiple proteins that form the MET channel. One of the MET complex components is the transmembrane protein LHFPL5, which is required for hair cell MET and hearing. LHFPL5 is thought to interact with two other MET channel complex proteins, PCDH15 and TMC1. Despite localizing to the plasma membrane of stereocilia, the mechanosensing organelles of hair cells, LHFPL5 requires its binding partner within the MET complex, PCDH15, to localize to the stereocilia tips in hair cells and to the plasma membrane in heterologous cells. Using the Aquaporin 3-tGFP reporter (AGR) for plasma membrane localization, we found that a region within extracellular loop 1, which interacts with PCDH15, precludes the trafficking of the AGR reporter to the plasma membrane of HEK293 cells. Our results suggest that the presence of protein partners may mask endoplasmic reticulum retention regions or enable the proper folding and trafficking of the MET complex components, to facilitate expression of the MET complex at the stereocilia membrane.
Publisher
Research Square Platform LLC