Characterization of Usher Syndrome Type 2-Associated Proteins in the Retina via Affinity Purification-Mass Spectrometry

: Usher syndrome is the leading cause of inherited deaf-blindness, with type 2 (Usher syndrome type 2, USH2) being the most common form. USH2A, ADGRV1, and WHRN are the three known USH2 causative genes, which are also linked to isolated retinal degeneration and hearing loss. These genes encode usherin, ADGRV1, and whirlin, respectively, collectively called USH2 proteins. These proteins form a multiprotein complex (USH2 complex) at the periciliary membrane in retinal photoreceptors and at the stereociliary ankle link in inner ear hair cells. The molecular function of the USH2 complex and its disease mechanisms are poorly understood. Currently, there is no cure for diseases caused by mutations in the three USH2 genes. In this study, we employed multiple affinity purification methods combined with mass spectrometry to systematically identify the interaction partners of USH2 proteins in the retina. The ADGRV1 intracellular bait pulled down proteins involved in actin-based cell projections, the chaperone-containing TCP-1 complex, and the Bardet-Biedl syndrome complex. The extracellular domains of ADGRV1 and usherin pulled down proteins related to peptidase regulation, collagen biosynthesis and modification, and elastic fiber formation. The EAR/EPTP repeats of ADGRV1 specifically pulled down TGFβ signaling proteins. Further immunoprecipitation experiments identified, with high confidence, Gαi and Gαq as ADGRV1-interacting proteins, and retinal degeneration and ciliary proteins as interaction partners of USH2 proteins. We also demonstrated that the usherin extracellular domains interact with each other and with ADGRV1. Overall, these findings suggest that the USH2 complex connects the extracellular matrix (ECM) to the intracellular actin network, signals through Gαi and Gαq, and participates in ECM remodeling, TGFβ signaling, cell adhesion, and ciliary function in photoreceptors.