Abstract
Mutations in whirlin cause either Usher syndrome type II (USH2), a deafness-blindness disorder, or nonsyndromic deafness. The molecular basis for the variable disease expression is unknown. We show here that only the whirlin long isoform, distinct from a short isoform by virtue of having two N-terminal PDZ domains, is expressed in the retina. Both long and short isoforms are expressed in the inner ear. The N-terminal PDZ domains of the long whirlin isoform mediates the formation of a multi-protein complex that includes usherin and VLGR1, both of which are also implicated in USH2. We localized this USH2 protein complex to the periciliary membrane complex (PMC) in mouse photoreceptors that appears analogous to the frog periciliary ridge complex. The latter is proposed to play a role in photoreceptor protein trafficking through the connecting cilium. Mice carrying a targeted disruption near the N-terminus of whirlin manifest retinal and inner ear defects, reproducing the clinical features of human USH2 disease. This is in contrast to mice with mutations affecting the C-terminal portion of whirlin in which the phenotype is restricted to the inner ear. In mice lacking any one of the USH2 proteins, the normal localization of all USH2 proteins is disrupted, and there is evidence of protein destabilization. Taken together, our findings provide new insights into the pathogenic mechanism of Usher syndrome. First, the three USH2 proteins exist as an obligatory functional complex in vivo, and loss of one USH2 protein is functionally close to loss of all three. Second, defects in the three USH2 proteins share a common pathogenic process, i.e., disruption of the PMC. Third, whirlin mutations that ablate the N-terminal PDZ domains lead to Usher syndrome, but non-syndromic hearing loss will result if they are spared.
Highlights
Usher syndrome manifests as both retinal degeneration and hearing loss [1,2]
To study whether the three USH2 proteins are interdependent at the ankle-link complex as at the periciliary membrane complex (PMC), we examined their distribution in hair cells in whirlin and Ush2a knockout mice at P3–P6
This phenotype reiterates the clinical features of USH2D disease in humans [12]
Summary
Usher syndrome manifests as both retinal degeneration and hearing loss [1,2]. It is classified into type I, II, and III based on clinical features of the hearing defects [3,4,5,6,7,8]. Three distinct gene loci, referred to as USH2A, USH2C and USH2D, are known to underlie USH2. These three genes encode the USH2A protein ( known as usherin), Very Large G protein-coupled Receptor-1 (VLGR1) and whirlin, respectively. A previously proposed USH2B locus was subsequently shown to be in error and has been withdrawn [9]
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