| Literature DB >> 30280293 |
Oscar Diaz-Horta1, Clemer Abad1, Filiz Basak Cengiz1, Guney Bademci1, Pat Blackwelder2,3, Katherina Walz4, Mustafa Tekin5.
Abstract
RIPOR2 (previously known as FAM65B) localizes to stereocilia of auditory hair cells and causes deafness when its function is disturbed by mutations. Here, we demonstrate that during the morphogenesis of the hair cell bundle, absence of Ripor2 affects the orientation of this key subcellular structure. We show that Ripor2 interacts with Myh9, a protein encoded by a known deafness gene. Absence of Ripor2 is associated with low Myh9 abundance in the mouse cochlea despite increased amount of Myh9 transcripts. While Myh9 is mainly expressed in stereocilia, a phosphorylated form of Myh9 is particularly enriched in the kinocilium. In Ripor2-deficient mice, kinocilium shows an aberrant localization which associates with a reduced content of phosphorylated Myh9. Acetylated alpha tubulin, another specific kinociliary protein which contributes to microtubule stabilization, is reduced in the absence of Ripor2 as well. We propose that Ripor2 deficiency influences abundance and/or post-translational modifications of proteins expressed in both stereocilia and kinocilia. This effect may have a negative impact on the structure and function of the auditory hair cell bundle.Entities:
Keywords: Deafness; Hair cells; Kinocilium; Myh9; Ripor2; Stereocilia
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Year: 2018 PMID: 30280293 PMCID: PMC6238639 DOI: 10.1007/s00109-018-1694-x
Source DB: PubMed Journal: J Mol Med (Berl) ISSN: 0946-2716 Impact factor: 4.599