原发性卵巢功能不全的减数分裂成熟失败:牛模型的启示。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-08-01 Epub Date: 2024-06-29 DOI:10.1007/s10815-024-03160-3
Sara Pietroforte, Pritha Dey, Elena Ibáñez, Alberto Maria Luciano, Valentina Lodde, Federica Franciosi, Mina Popovic, Rita Vassena, Filippo Zambelli
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引用次数: 0

摘要

目的:与非原发性卵巢功能不全(POI)妇女相比,原发性卵巢功能不全(POI)妇女的卵母细胞生成可存活胚胎的比率较低,但导致卵母细胞质量较低的机制仍难以捉摸。由于用于研究的人类卵母细胞稀缺,动物模型提供了一条有希望的出路。我们的目的是在定义明确的 POI 类牛模型中研究 POI 卵母细胞最终成熟的分子特征:方法:对牛对照组、类 POI、GV 和 MII 卵母细胞(每组 5 个)进行单细胞 RNA 序列分析。使用 DEseq2 鉴定差异表达基因。此外,还对牛卵母细胞和人类卵母细胞进行了基因组富集分析和转录组元分析:结果:在对照组奶牛中,我们发现有 2223 个基因在 GV 期和 MII 期之间表达不同。具体而言,受影响的基因与 RNA 处理和转运、蛋白质合成、细胞器重塑和重组以及新陈代谢有关。对一组处于不同成熟阶段的人类年轻卵母细胞进行的荟萃分析表明,在奶牛和人类的GV-MII过渡阶段有315个保守基因,这些基因大多与减数分裂进程和细胞周期有关。对类似 POI 的 GV 和 MII 卵母细胞进行的基因表达分析表明,差异表达的基因没有差异,这表明 POI 模型中转录组的重塑严重失败,聚类分析表明奶牛的遗传背景比卵母细胞的成熟阶段影响更大:总之,我们发现并描述了一种有价值的 POI 动物模型,为确定参与 POI 的新分子机制铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Meiotic maturation failure in primary ovarian insufficiency: insights from a bovine model.

Meiotic maturation failure in primary ovarian insufficiency: insights from a bovine model.

Purpose: Oocytes from women presenting primary ovarian insufficiency (POI) generate viable embryos at a lower rate than non-POI women, but the mechanisms responsible for the lower oocyte quality remain elusive. Due to the scarcity of human oocytes for research, animal models provide a promising way forward. We aimed at investigating the molecular events characterizing final maturation in POI oocytes in a well-defined POI-like bovine model.

Methods: Single-cell RNA-sequencing of bovine control and POI-like, GV, and MII oocytes (n = 5 per group) was performed. DEseq2 was used to identify differentially expressed genes. Further, a Gene set enrichment analysis and a transcriptomic meta-analysis between bovine and human oocytes were performed.

Results: In control cows, we found 2223 differentially expressed genes between the GV and MII stages. Specifically, the affected genes were related to RNA processing and transport, protein synthesis, organelle remodeling and reorganization, and metabolism. The meta-analysis with a set of young human oocytes at different maturation stages revealed 315 conserved genes through the GV-MII transition in cows and humans, mostly related to meiotic progression and cell cycle. Gene expression analysis between GV and MII of POI-like oocytes showed no differences in terms of differentially expressed genes, pointing towards a substantial failure to properly remodel the transcriptome in the POI model, and with the clustering analysis indicating that the cow's genetic background had a higher impact than the oocyte's maturation stage.

Conclusion: Overall, we have identified and characterized a valuable animal model of POI, paving the way to identifying new molecular mechanisms involved in POI.

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CiteScore
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