Bhattacharya Gautam, Kalluri Raghu, Orten Dana J, Kimberling William J, Cosgrove Dominic
Usher Syndrome Center, Boys Town National Research Hospital, 555 No. 30th Street, Omaha, Nebraska, 68131, USA.
J Cell Sci. 2004 Jan 15;117(Pt 2):233-42. doi: 10.1242/jcs.00850.
Usherin is a basement membrane protein encoded by the gene associated with Usher syndrome type IIa, the most common deaf/blind disorder. This report demonstrates a specific interaction between type IV collagen and usherin in the basement membrane, with a 1:1 stoichiometry for binding. Genetic and biochemical approaches were used to explore the role of type IV collagen binding in usherin function. We demonstrate binding occurs between the LE domain of usherin and the 7S domain of type IV collagen. A purified fusion peptide comprising the first four LE modules was shown to compete with full-length recombinant usherin for type IV collagen binding. However, synonymous fusion peptides with single amino acid substitutions resulting from missense mutations that were known to cause Usher syndrome type IIa in humans, failed to compete. Only mutations in loop b of the LE domain abolished binding activity. Co-immunoprecipitation and western blot analysis of testicular basement membranes from the Alport mouse model show a 70% reduction in type IV collagen is associated with a similar reduction in usherin, suggesting the usherin/collagen (IV) interaction stabilizes usherin in the basement membrane. Thus, the domain-specific interaction between usherin and type IV collagen appears essential to usherin stability in vivo, and loss of this interaction may result in Usher pathology in humans.
usherin是一种基底膜蛋白,由与IIa型Usher综合征相关的基因编码,IIa型Usher综合征是最常见的致聋/致盲疾病。本报告证明了IV型胶原蛋白与基底膜中的usherin之间存在特异性相互作用,结合化学计量比为1:1。采用遗传学和生物化学方法来探究IV型胶原蛋白结合在usherin功能中的作用。我们证明结合发生在usherin的LE结构域与IV型胶原蛋白的7S结构域之间。一种包含前四个LE模块的纯化融合肽显示出可与全长重组usherin竞争IV型胶原蛋白结合。然而,由已知会在人类中导致IIa型Usher综合征的错义突变产生的具有单个氨基酸替换的同义融合肽则无法竞争。只有LE结构域的b环中的突变消除了结合活性。对Alport小鼠模型的睾丸基底膜进行的免疫共沉淀和蛋白质印迹分析表明,IV型胶原蛋白减少70%与usherin的类似减少相关,这表明usherin/胶原蛋白(IV)相互作用可使usherin在基底膜中稳定存在。因此,usherin与IV型胶原蛋白之间的结构域特异性相互作用似乎对usherin在体内的稳定性至关重要,而这种相互作用的丧失可能会导致人类出现Usher病理症状。