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usher 蛋白在毛细胞和光感受器中发挥作用。

Usher protein functions in hair cells and photoreceptors.

机构信息

Boys Town National Research Hospital, Omaha, NE, USA.

Boys Town National Research Hospital, Omaha, NE, USA.

出版信息

Int J Biochem Cell Biol. 2014 Jan;46:80-9. doi: 10.1016/j.biocel.2013.11.001. Epub 2013 Nov 12.

Abstract

The 10 different genes associated with the deaf/blind disorder, Usher syndrome, encode a number of structurally and functionally distinct proteins, most expressed as multiple isoforms/protein variants. Functional characterization of these proteins suggests a role in stereocilia development in cochlear hair cells, likely owing to adhesive interactions in hair bundles. In mature hair cells, homodimers of the Usher cadherins, cadherin 23 and protocadherin 15, interact to form a structural fiber, the tip link, and the linkages that anchor the taller stereocilia's actin cytoskeleton core to the shorter adjacent stereocilia and the elusive mechanotransduction channels, explaining the deafness phenotype when these molecular interactions are perturbed. The conundrum is that photoreceptors lack a synonymous mechanotransduction apparatus, and so a common theory for Usher protein function in the two neurosensory cell types affected in Usher syndrome is lacking. Recent evidence linking photoreceptor cell dysfunction in the shaker 1 mouse model for Usher syndrome to light-induced protein translocation defects, combined with localization of an Usher protein interactome at the periciliary region of the photoreceptors suggests Usher proteins might regulate protein trafficking between the inner and outer segments of photoreceptors. A distinct Usher protein complex is trafficked to the ribbon synapses of hair cells, and synaptic defects have been reported in Usher mutants in both hair cells and photoreceptors. This review aims to clarify what is known about Usher protein function at the synaptic and apical poles of hair cells and photoreceptors and the prospects for identifying a unifying pathobiological mechanism to explain deaf/blindness in Usher syndrome.

摘要

与聋盲障碍(Usher 综合征)相关的 10 个不同基因编码了许多结构和功能不同的蛋白质,大多数以多种同工型/蛋白变体表达。这些蛋白质的功能特征表明它们在耳蜗毛细胞的静纤毛发育中起作用,这可能归因于毛束中的黏附相互作用。在成熟的毛细胞中,Usher 钙粘蛋白、钙粘蛋白 23 和原钙粘蛋白 15 的同源二聚体相互作用形成结构纤维,即尖端连接,以及将较长的静纤毛的肌动蛋白细胞骨架核心锚定到较短的相邻静纤毛和难以捉摸的机械转导通道的连接,解释了当这些分子相互作用受到干扰时耳聋表型的原因。难题在于感光器缺乏同义的机械转导装置,因此缺乏影响 Usher 综合征的两种感觉神经元细胞类型中 Usher 蛋白功能的共同理论。最近的证据将 shaker1 小鼠模型中的感光器功能障碍与光诱导的蛋白易位缺陷联系起来,同时将一个 Usher 蛋白相互作用组定位于感光器的纤毛旁区,这表明 Usher 蛋白可能调节感光器内外段之间的蛋白转运。一个独特的 Usher 蛋白复合物被转运到毛细胞的带状突触,并且在毛细胞和感光器的 Usher 突变体中已经报道了突触缺陷。这篇综述旨在阐明在毛细胞和感光器的突触和顶端极中已知的 Usher 蛋白功能,以及鉴定一个统一的病理生物学机制来解释 Usher 综合征中的耳聋/失明的前景。

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