TUBB8致病性变异通过破坏EB1/CAKP5相互作用和通过抑制HDAC6靶向微管乙酰化的潜在治疗，导致卵母细胞纺锤体缺陷。

IF 7.9 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Clinical and Translational Medicine Pub Date : 2025-01-20 DOI:10.1002/ctm2.70193

Hui Luo, Jianhua Chen, Cao Li, Tian Wu, Siyue Yin, Guangping Yang, Yipin Wang, Zhihan Guo, Saifei Hu, Yanni He, Yingnan Wang, Yao Chen, Youqiang Su, Congxiu Miao, Yun Qian, Ruizhi Feng

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引用次数: 0

摘要

背景：在灵长类动物特异性的TUBB8基因上已经报道了许多导致人类卵母细胞成熟停滞的致病变异。主要病因是微管蛋白α/β二聚体的显著减少，但仍有大量的变异尚未解释。方法：利用微注射mRNA和基因组工程技术将保守的致病错义变异体重新引入卵母细胞或建立TUBB8变异体敲入小鼠模型，研究人类有害变异体在减数分裂过程中对微管成核和纺锤体组装的影响。利用活细胞成像和免疫荧光技术在体内跟踪微管和末端跟踪蛋白的动态表达，并分别分析微管成核或纺锤体组装。采用免疫沉淀-质谱法和超微定量蛋白质组学方法鉴定差异丰度蛋白和受影响的TUBB8蛋白相互作用组。结果：首先，我们观察到微注射突变的TUBB8 mRNA（包括R262Q、M300I和D417N错义变体）后EB1信号明显缺失，表明这些引入的TUBB8错义变体导致微管成核破坏。机械地，我们证明了体内TUBB8-D417N错义变体降低了EB1和微管的亲和力。它还破坏了微管与CKAP5/TACC3之间的相互作用，而这是启动微管成核的关键。在TUBB8-D417N卵母细胞中也发现了减弱的Ran-GTP通路，导致纺锤体组装中断。TUBB8-D417N卵母细胞纺锤体上的稳定微管大量消失，表现为微管蛋白乙酰化减少和HDAC6积累。更重要的是，用Tubacin或Tubastatin A培养TUBB8-D417N卵母细胞，选择性抑制HDAC6后，纺锤体形态正常，极体挤压率大幅恢复。这些挽救结果揭示了治疗某些TUBB8突变患者减数分裂缺陷的策略。结论：本研究提供了TUBB8错义变异导致卵母细胞成熟阻滞的综合机制，为临床治疗女性不孕症提供了新的治疗途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Pathogenic variants of TUBB8 cause oocyte spindle defects by disrupting with EB1/CAKP5 interactions and potential treatment targeting microtubule acetylation through HDAC6 inhibition

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Pathogenic variants of TUBB8 cause oocyte spindle defects by disrupting with EB1/CAKP5 interactions and potential treatment targeting microtubule acetylation through HDAC6 inhibition

Background

Numerous pathogenic variants causing human oocyte maturation arrest have been reported on the primate-specific TUBB8 gene. The main etiology is the dramatic reduction of tubulin α/β dimer, but still large numbers of variants remain unexplained.

Methods

Using microinjection mRNA and genome engineering to reintroduce the conserved pathogenic missense variants into oocytes or in generating TUBB8 variant knock-in mouse models, we investigated that the human deleterious variants alter microtubule nucleation and spindle assembly during meiosis. Live-cell imaging and immunofluorescence were utilised to track the dynamic expression of microtubule plus end-tracking proteins in vivo and analysed microtubule nucleation or spindle assembly in vitro, respectively. Immunoprecipitation-mass spectrometry and ultramicro-quantitative proteomics were performed to identify the differential abundance proteins and affected interactome of TUBB8 protein.

Results

First, we observed a significant depletion of the EB1 signal upon microinjection of mutated TUBB8 mRNA (including R262Q, M300I, and D417N missense variants), indicating disruption of microtubule nucleation caused by these introduced TUBB8 missense variants. Mechanically, we demonstrated that the in vivo TUBB8-D417N missense variant diminished the affinity of EB1 and microtubules. It also harmed the interaction between microtubules and CKAP5/TACC3, which are crucial for initiating microtubule nucleation. Attenuated Ran-GTP pathway was also found in TUBB8-D417N oocytes, leading to disrupted spindle assembly. Stable microtubule was largely abolished on the spindle of TUBB8-D417N oocytes, reflected by reduced tubulin acetylation and accumulated HDAC6. More importantly, selective inhibition of HDAC6 by culturing TUBB8-D417N oocytes with Tubacin or Tubastatin A showed morphologically normal spindle and drastically recovered polar-body extrusion rate. These rescue results shed light on the strategy to treat meiotic defects in a certain group of TUBB8 mutated patients.

Conclusion

Our study provides a comprehensive mechanism elucidating how TUBB8 missense variants cause oocyte maturation arrest and offers new therapeutic avenues for treating female infertility in the clinic.

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来源期刊

Clinical and Translational Medicine Multiple-

CiteScore

15.90

自引率

1.90%

发文量

450

审稿时长

4 weeks

期刊介绍： Clinical and Translational Medicine (CTM) is an international, peer-reviewed, open-access journal dedicated to accelerating the translation of preclinical research into clinical applications and fostering communication between basic and clinical scientists. It highlights the clinical potential and application of various fields including biotechnologies, biomaterials, bioengineering, biomarkers, molecular medicine, omics science, bioinformatics, immunology, molecular imaging, drug discovery, regulation, and health policy. With a focus on the bench-to-bedside approach, CTM prioritizes studies and clinical observations that generate hypotheses relevant to patients and diseases, guiding investigations in cellular and molecular medicine. The journal encourages submissions from clinicians, researchers, policymakers, and industry professionals.