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在一个显性遗传的 c.1430A>G 人 RPE65 突变的敲入小鼠模型中,异常 RNA 剪接是主要的致病效应。

Aberrant RNA splicing is the major pathogenic effect in a knock-in mouse model of the dominantly inherited c.1430A>G human RPE65 mutation.

机构信息

Laboratory of Retinal Cell & Molecular Biology, National Eye Institute, NIH, Bethesda, Maryland.

Neurobiology-Neurodegeneration & Repair Laboratory, National Eye Institute, NIH, Bethesda, Maryland.

出版信息

Hum Mutat. 2019 Apr;40(4):426-443. doi: 10.1002/humu.23706. Epub 2019 Jan 25.

DOI:10.1002/humu.23706
PMID:30628748
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6425930/
Abstract

Human RPE65 mutations cause a spectrum of retinal dystrophies that result in blindness. While RPE65 mutations have been almost invariably recessively inherited, a c.1430A>G (p.(D477G)) mutation has been reported to cause autosomal dominant retinitis pigmentosa (adRP). To study the pathogenesis of this human mutation, we have replicated the mutation in a knock-in (KI) mouse model using CRISPR/Cas9-mediated genome editing. Significantly, in contrast to human patients, heterozygous KI mice do not exhibit any phenotypes in visual function tests. When raised in regular vivarium conditions, homozygous KI mice display relatively undisturbed visual functions with minimal retinal structural changes. However, KI/KI mouse retinae are more sensitive to light exposure and exhibit signs of degenerative features when subjected to light stress. We find that instead of merely producing a missense mutant protein, the A>G nucleotide substitution greatly affects appropriate splicing of Rpe65 mRNA by generating an ectopic splice site in comparable context to the canonical one, thereby disrupting RPE65 protein expression. Similar splicing defects were also confirmed for the human RPE65 c.1430G mutant in an in vitro Exontrap assay. Our data demonstrate that a splicing defect is associated with c.1430G pathogenesis, and therefore provide insights in the therapeutic strategy for human patients.

摘要

人类 RPE65 突变导致一系列视网膜营养不良,最终导致失明。虽然 RPE65 突变几乎总是隐性遗传,但据报道 c.1430A>G(p.(D477G))突变可导致常染色体显性视网膜色素变性(adRP)。为了研究该人类突变的发病机制,我们使用 CRISPR/Cas9 介导的基因组编辑在敲入(KI)小鼠模型中复制了该突变。值得注意的是,与人类患者相比,杂合子 KI 小鼠在视觉功能测试中没有表现出任何表型。当在常规 vivarium 条件下饲养时,纯合子 KI 小鼠显示出相对未受干扰的视觉功能,视网膜结构变化最小。然而,KI/KI 小鼠的视网膜对光暴露更为敏感,并且在受到光应激时表现出退行性特征的迹象。我们发现,A>G 核苷酸取代不仅产生错义突变蛋白,而且还通过在与规范相同的情况下产生异位剪接位点,极大地影响 Rpe65 mRNA 的适当剪接,从而破坏 RPE65 蛋白表达。在体外 Exontrap 测定中,也证实了人类 RPE65 c.1430G 突变的类似剪接缺陷。我们的数据表明,剪接缺陷与 c.1430G 发病机制相关,因此为人类患者的治疗策略提供了见解。

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A Dominant Mutation in Rpe65, D477G, Delays Dark Adaptation and Disturbs the Visual Cycle in the Mutant Knock-In Mice.Rpe65基因中的显性突变D477G会延迟突变体敲入小鼠的暗适应并扰乱视觉循环。
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