The ultrastructural nature of human oocytes’ cytoplasmic abnormalities and the role of cytoskeleton dysfunction

Martina Tatíčková M.Sc. , Zuzana Trebichalská M.Sc. , Drahomíra Kyjovská , Pavel Otevřel M.D. , Soňa Kloudová Ph.D. , Zuzana Holubcová Ph.D.
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Abstract

Objective

To investigate the structural bases of human oocytes’ cytoplasmic abnormalities and the causative mechanism of their emergence. Knowledge of an abnormal oocyte’s intracellular organization is vital to establishing reliable criteria for clinical evaluation of oocyte morphology.

Design

Laboratory-based study on experimental material provided by a private assisted reproduction clinic.

Setting

University laboratory and imaging center.

Patients

A total of 105 women undergoing hormonal stimulation for in vitro fertilization (IVF) donated their spare oocytes for this study.

Interventions

Transmission electron microscopy (TEM) was used to analyze the fine morphology of 22 dysmorphic IVF oocytes exhibiting different types of cytoplasmic irregularities, namely, refractile bodies; centrally located cytoplasmic granularity (CLCG); smooth endoplasmic reticulum (SER) disc; and vacuoles. A total of 133 immature oocytes were exposed to cytoskeleton-targeting compounds or matured in control conditions, and their morphology was examined using fluorescent and electron microscopy.

Main Outcome Measures

The ultrastructural morphology of dysmorphic oocytes was analyzed. Drug-treated oocytes had their maturation efficiency, chromosome-microtubule configurations, and fine intracellular morphology examined.

Results

TEM revealed ultrastructural characteristics of common oocyte aberrations and indicated that excessive organelle clustering was the underlying cause of 2 of the studied morphotypes. Inhibition experiments showed that disruption of actin, not microtubules, allows for inordinate aggregation of subcellular structures, resembling the ultrastructural pattern seen in morphologically abnormal oocytes retrieved in IVF cycles. These results imply that actin serves as a regulator of organelle distribution during human oocyte maturation.

Conclusion

The ultrastructural analogy between dysmorphic oocytes and oocytes, in which actin network integrity was perturbed, suggests that dysfunction of the actin cytoskeleton might be implicated in generating common cytoplasmic aberrations. Knowledge of human oocytes’ inner workings and the origin of morphological abnormalities is a step forward to a more objective oocyte quality assessment in IVF practice.

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人卵母细胞胞浆异常的超微结构性质和细胞骨架功能障碍的作用。
目的:探讨人卵母细胞胞质异常的结构基础及其产生的机制。了解(ab)正常卵母细胞的细胞内组织对于建立可靠的卵母细胞形态学临床评估标准至关重要。设计:对私人辅助生殖诊所提供的实验材料进行实验室研究。设置:大学实验室和影像中心。患者:共有105名接受激素刺激进行体外受精(IVF)的女性为本研究捐献了备用卵母细胞。干预:使用透射电子显微镜(TEM)分析了22个表现出不同类型细胞质不规则的变形IVF卵母细胞的精细形态,即(1)折射体,(2)中央定位的细胞质颗粒(CLCG),(3)滑面内质网(SER)盘和(4)液泡。共有133个未成熟卵母细胞暴露于细胞骨架靶向化合物或在对照条件下成熟,并通过荧光和电子显微镜检查其形态。主要观察指标:分析畸形卵母细胞的超微结构形态。药物处理的卵母细胞具有成熟效率、染色体微管结构和精细的细胞内形态。结果:透射电镜显示了常见卵母细胞畸变的超微结构特征,并表明细胞器过度聚集是两种研究形态类型的根本原因。抑制实验表明,肌动蛋白而非微管的破坏导致亚细胞结构过度聚集,类似于IVF周期中获得的形态异常卵母细胞的超微结构模式。这些结果表明,肌动蛋白在人类卵母细胞成熟过程中是细胞器分布的调节因子。结论:畸形卵母细胞和肌动蛋白网络完整性受到干扰的卵母细胞之间的超微结构相似性表明,肌动蛋白细胞骨架的功能障碍可能与常见的细胞质畸变有关。了解人类卵母细胞的内部运作和形态学异常的起源,是在体外受精实践中更客观地评估卵母细胞质量的一步。
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来源期刊
F&S science
F&S science Endocrinology, Diabetes and Metabolism, Obstetrics, Gynecology and Women's Health, Urology
CiteScore
2.00
自引率
0.00%
发文量
0
审稿时长
51 days
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