Abstract
Sensorineural hearing loss is genetically heterogeneous. Here we report that mutations in CIB2, encoding a Ca2+- and integrin-binding protein, are associated with nonsyndromic deafness (DFNB48) and Usher syndrome type 1J (USH1J). There is one mutation of CIB2 that is a prevalent cause of DFNB48 deafness in Pakistan; other CIB2 mutations contribute to deafness elsewhere in the world. In rodents, CIB2 is localized in the mechanosensory stereocilia of inner ear hair cells and in retinal photoreceptor and pigmented epithelium cells. Consistent with molecular modeling predictions of Ca2+ binding, CIB2 significantly decreased the ATP-induced Ca2+ responses in heterologous cells, while DFNB48 mutations altered CIB2 effects on Ca2+ responses. Furthermore, in zebrafish and Drosophila, CIB2 is essential for the function and proper development of hair cells and retinal photoreceptor cells. We show that CIB2 is a new member of the vertebrate Usher interactome.
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