The role of cilia in the development, survival, and regeneration of hair cells.

IF 1.8 4区生物学 Q3 BIOLOGY

Biology Open Pub Date : 2024-09-15 Epub Date: 2024-09-12 DOI:10.1242/bio.061690

Hope Boldizar, Amanda Friedman, Tess Stanley, María Padilla, Jennifer Galdieri, Arielle Sclar, Tamara M Stawicki

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引用次数: 0

Abstract

Mutations impacting cilia genes lead to a class of human diseases known as ciliopathies. This is due to the role of cilia in the development, survival, and regeneration of many cell types. We investigated the extent to which disrupting cilia impacted these processes in lateral line hair cells of zebrafish. We found that mutations in two intraflagellar transport (IFT) genes, ift88 and dync2h1, which lead to the loss of kinocilia, caused increased hair cell apoptosis. IFT gene mutants also have a decreased mitochondrial membrane potential, and blocking the mitochondrial uniporter causes a loss of hair cells in wild-type zebrafish but not mutants, suggesting mitochondria dysfunction may contribute to the apoptosis seen in these mutants. These mutants also showed decreased proliferation during hair cell regeneration but did not show consistent changes in support cell number or proliferation during hair cell development. These results show that the loss of hair cells seen following disruption of cilia through either mutations in anterograde or retrograde IFT genes appears to be due to impacts on hair cell survival but not necessarily development in the zebrafish lateral line.

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纤毛在毛细胞的发育、存活和再生中的作用。

影响纤毛基因的突变会导致一类被称为纤毛疾病的人类疾病。这是因为纤毛在许多细胞类型的发育、存活和再生中发挥作用。我们研究了破坏纤毛对斑马鱼侧线毛细胞这些过程的影响程度。我们发现，ift88 和 dync2h1 这两个鞘内转运（IFT）基因的突变会导致动纤毛的缺失，从而增加毛细胞的凋亡。IFT 基因突变体的线粒体膜电位也会降低，阻断线粒体单运器会导致野生型斑马鱼的毛细胞丢失，但突变体不会，这表明线粒体功能障碍可能是这些突变体出现凋亡的原因之一。在毛细胞再生过程中，这些突变体的增殖能力也有所下降，但在毛细胞发育过程中，支持细胞数量或增殖能力并没有出现一致的变化。这些结果表明，通过前向或逆向 IFT 基因突变破坏纤毛后出现的毛细胞损失似乎是由于影响了毛细胞的存活，而不一定是斑马鱼侧线的发育。

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

Biology Open BIOLOGY-

CiteScore

3.90

自引率

0.00%

发文量

162

审稿时长

8 weeks

期刊介绍： Biology Open (BiO) is an online Open Access journal that publishes peer-reviewed original research across all aspects of the biological sciences. BiO aims to provide rapid publication for scientifically sound observations and valid conclusions, without a requirement for perceived impact.