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一种肌球蛋白 VIIa 的新等位基因揭示了 C 末端 FERM 结构域在视网膜色素上皮细胞黑素体运输中的关键作用。

A novel allele of myosin VIIa reveals a critical function for the C-terminal FERM domain for melanosome transport in retinal pigment epithelial cells.

机构信息

Department of Cell Biology, Institute for Childhood and Neglected Disease, The Scripps Research Institute, La Jolla, California 92037, USA.

出版信息

J Neurosci. 2009 Dec 16;29(50):15810-8. doi: 10.1523/JNEUROSCI.4876-09.2009.

DOI:10.1523/JNEUROSCI.4876-09.2009
PMID:20016096
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2834289/
Abstract

Mutations in the head and tail domains of the motor protein myosin VIIA (MYO7A) cause deaf-blindness (Usher syndrome type 1B, USH1B) and nonsyndromic deafness (DFNB2, DFNA11). The head domain binds to F-actin and serves as the MYO7A motor domain, but little is known about the function of the tail domain. In a genetic screen, we have identified polka mice, which carry a mutation (c.5742 + 5G > A) that affects splicing of the MYO7A transcript and truncates the MYO7A tail domain at the C-terminal FERM domain. In the inner ear, expression of the truncated MYO7A protein is severely reduced, leading to defects in hair cell development. In retinal pigment epithelial (RPE) cells, the truncated MYO7A protein is expressed at comparative levels to wild-type protein but fails to associate with and transport melanosomes. We conclude that the C-terminal FERM domain of MYO7A is critical for melanosome transport in RPE cells. Our findings also suggest that MYO7A mutations can lead to tissue-specific effects on protein levels, which may explain why some mutations in MYO7A lead to deafness without retinal impairment.

摘要

肌球蛋白 VIIA(MYO7A)头部和尾部结构域的突变导致聋盲(Usher 综合征 1B 型,USH1B)和非综合征性耳聋(DFNB2,DFNA11)。头部结构域与 F-肌动蛋白结合,作为 MYO7A 的运动结构域,但尾部结构域的功能知之甚少。在一项遗传筛选中,我们发现了 polka 小鼠,该小鼠携带一个突变(c.5742 + 5G > A),影响 MYO7A 转录的剪接,并在 C 端 FERM 结构域截断 MYO7A 尾部结构域。在内耳中,截短的 MYO7A 蛋白表达严重减少,导致毛细胞发育缺陷。在视网膜色素上皮(RPE)细胞中,截短的 MYO7A 蛋白的表达水平与野生型蛋白相当,但不能与黑素体结合并运输。我们得出结论,MYO7A 的 C 端 FERM 结构域对 RPE 细胞中的黑素体运输至关重要。我们的发现还表明,MYO7A 突变可导致特定组织中蛋白水平的变化,这可能解释了为什么 MYO7A 的一些突变导致耳聋而没有视网膜损伤。

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