哺乳动物毛细胞立体纤毛外壳蛋白Pkhd1l1在调节斑马鱼听力中的保守功能。

IF 1.8 4区 医学 Q3 GENETICS & HEREDITY Journal of neurogenetics Pub Date : 2023-09-01 Epub Date: 2023-03-24 DOI:10.1080/01677063.2023.2187792
Stylianos Makrogkikas, Ruey-Kuang Cheng, Hao Lu, Sudipto Roy
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引用次数: 1

摘要

Pkhd1l1被预测编码一种非常大的I型跨膜蛋白,但其功能在很大程度上仍不清楚。最近,研究表明,Pkhdl1l1是装饰小鼠耳朵外毛细胞立体纤毛的外壳的一种成分。与这种定位一致的是,有条件地从毛细胞中特异性地缺失Pkhd1l1与进行性听力损失有关。在斑马鱼中,有两个同源的pkhd1l1基因——pkhd1llα和pkhd1lβ。使用CRISPR-Cas9介导的基因编辑,我们产生了两者的功能缺失等位基因,并表明双突变体表现出RNA的无义介导衰变(NMD)。通过行为分析,我们证明斑马鱼pkhd1l1基因也调节听力;然而,与出现进行性听力损失的Pkhd1l1突变小鼠相比,双突变斑马鱼甚至从幼虫阶段就表现出统计学上显著的听力损失。我们的数据强调了Pkhd1l1在听力中的保守功能,基于动物模型的这些发现,我们推测Pkhd1l1可能是人类感音神经性听力损失(SNHL)的候选基因。
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A conserved function of Pkhd1l1, a mammalian hair cell stereociliary coat protein, in regulating hearing in zebrafish.

Pkhd1l1 is predicted to encode a very large type-I transmembrane protein, but its function has largely remained obscure. Recently, it was shown that Pkhdl1l1 is a component of the coat that decorates stereocilia of outer hair cells in the mouse ear. Consistent with this localization, conditional deletion of Pkhd1l1 specifically from hair cells, was associated with progressive hearing loss. In the zebrafish, there are two paralogous pkhd1l1 genes - pkhd1l1α and pkhd1l1β. Using CRISPR-Cas9 mediated gene editing, we generated loss-of-function alleles for both and show that the double mutants exhibit nonsense-mediated-decay (NMD) of the RNAs. With behavioural assays, we demonstrate that zebrafish pkhd1l1 genes also regulate hearing; however, in contrast to Pkhd1l1 mutant mice, which develop progressive hearing loss, the double mutant zebrafish exhibited statistically significant hearing loss even from the larval stage. Our data highlight a conserved function of Pkhd1l1 in hearing and based on these findings from animal models, we postulate that PKHD1L1 could be a candidate gene for sensorineural hearing loss (SNHL) in humans.

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来源期刊
Journal of neurogenetics
Journal of neurogenetics 医学-神经科学
CiteScore
4.40
自引率
0.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: The Journal is appropriate for papers on behavioral, biochemical, or cellular aspects of neural function, plasticity, aging or disease. In addition to analyses in the traditional genetic-model organisms, C. elegans, Drosophila, mouse and the zebrafish, the Journal encourages submission of neurogenetic investigations performed in organisms not easily amenable to experimental genetics. Such investigations might, for instance, describe behavioral differences deriving from genetic variation within a species, or report human disease studies that provide exceptional insights into biological mechanisms
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