R391 human dominant mutation does not affect TubB4b localization and sensory hair cells structure in zebrafish inner ear and lateral line.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-11-07 DOI:10.1016/j.ydbio.2024.11.001

Wiam Smaili, Camille Pezet, Sandrine Marlin, Sylvain Ernest

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引用次数: 0

Abstract

Heterozygous R391 TUBB4B pathogenic variations are responsible for an association of hearing loss and retinal dystrophy in human. With the goal of understanding the functions of TuBB4b and the pathogenic role of R391 variations, we characterized tubB4B in zebrafish and identified the gene regulatory elements necessary and sufficient for expression of TubB4b as in endogenous tissues. Using knock-out and transgenic approaches, we determined that R391 mutations impair neither localization of TubB4B within sensory hair cells (SHC) nor their structure, but induced to a small decrease in SHC number from anterior crista. Expression of R391 mutations in sensory hair cells has no effect on zebrafish audition, suggesting a different equilibrium between various tubulin isotypes in zebrafish possibly due to compensatory mechanisms. The careful expression analysis and transgenic tools generated in this study could help understand how recently described pathogenic variants lead to more severe clinical forms of TUBB4B-related diseases.

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R391 人类显性突变不会影响斑马鱼内耳和侧线中 TubB4b 的定位和感觉毛细胞的结构。

杂合子 R391 TUBB4B 致病变异是导致人类听力损失和视网膜营养不良的原因之一。为了了解TuBB4b的功能和R391变异的致病作用，我们对斑马鱼中的TubB4B进行了鉴定，并确定了TubB4b在内源性组织中表达所必需和足够的基因调控元件。通过基因敲除和转基因方法，我们确定 R391 突变既不影响 TubB4B 在感觉毛细胞（SHC）内的定位，也不影响其结构，但会导致前嵴 SHC 数量的少量减少。在感觉毛细胞中表达 R391 基因突变对斑马鱼的听觉没有影响，这表明斑马鱼的各种微管蛋白异型之间存在不同的平衡，这可能是由于补偿机制造成的。本研究中仔细的表达分析和转基因工具有助于了解最近描述的致病变体如何导致更严重的 TUBB4B 相关疾病的临床形式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464