Litcius/Paper detail

Ciliopathy genes are required for apical secretion of Cochlin, an otolith crystallization factor

Eleni Leventea, Zhou Zhu, Xiaoming Fang, Yulia S. Nikolaeva, Eleanor Markham, Robert A. Hirst, Fredericus J. M. van Eeden, Jarema Malicki

2021Proceedings of the National Academy of Sciences27 citationsDOIOpen Access PDF

Abstract

, involved in human ciliopathies, affect apical secretion of Cochlin, a major otolith component and a determinant of calcium carbonate crystallization form. We show that Cochlin, defective in human auditory and vestibular disorder, DFNA9, is secreted from small specialized regions of vestibular system epithelia. Cells of these regions secrete Cochlin both apically into the ear lumen and basally into the basal lamina. Basally secreted Cochlin diffuses along the basal surface of vestibular epithelia, while apically secreted Cochlin is incorporated into the otolith. Mutations in a subset of ciliopathy genes lead to defects in Cochlin apical secretion, causing abnormal otolith crystallization and behavioral defects. This study reveals a class of ciliary proteins that are important for the polarity of secretion and delineate a secretory pathway that regulates biomineralization.

Topics & Concepts

CiliumCell biologySecretionBiologyCiliopathiesCiliopathyBasal bodyOtolithVestibular systemAnatomyPhenotypeGeneNeuroscienceFlagellumGeneticsBiochemistryFisheryFish <Actinopterygii>Hearing, Cochlea, Tinnitus, GeneticsVestibular and auditory disordersHead and Neck Anomalies