Voros Charalampos, Sapantzoglou Ioakeim, Athanasiou Diamantis, Varthaliti Antonia, Mavrogianni Despoina, Bananis Kyriakos, Athanasiou Antonia, Athanasiou Aikaterini, Papadimas Georgios, Gkirgkinoudis Athanasios, Papapanagiotou Ioannis, Migklis Kyriaki, Vaitsis Dimitrios, Koulakmanidis Aristotelis-Marios, Mazis Kourakos Dimitris, Ivanidou Sofia, Daskalaki Maria Anastasia, Theodora Marianna, Antsaklis Panagiotis, Loutradis Dimitrios, Daskalakis Georgios
Department of Obstetrics and Gynecology, 'Alexandra' General Hospital, National and Kapodistrian University of Athens, 11528 Athens, Greece.
IVF Athens Reproduction Center V. Athanasiou, 15123 Maroussi, Greece.
Int J Mol Sci. 2025 Jul 2;26(13):6390. doi: 10.3390/ijms26136390.
The efficacy of in vitro fertilization (IVF) is significantly hindered by early embryonic developmental failure and oocyte maturation arrest. Recent findings in reproductive genetics have identified several oocyte-specific genes-, , and -as essential regulators of meiotic spindle formation and cytoskeletal dynamics. Mutations in these genes can lead to significant meiotic defects, fertilization failure, and embryo arrest. The links between genotype and phenotype, along with the underlying biological mechanisms, remain inadequately characterized despite the increasing number of identified variations. This systematic review was conducted in accordance with PRISMA 2020 guidelines. Relevant papers were retrieved from the PubMed and Embase databases using combinations of the keywords "," "," "," "oocyte maturation arrest," "embryonic arrest," and "IVF failure." Studies were included if they contained clinical, genomic, and functional data on , , or mutations in women undergoing IVF. Molecular data, including gene variant classifications, inheritance models, in vitro tests (such as microtubule network analysis in HeLa cells), and assisted reproductive technology (ART) outcomes, were obtained. Eighteen trials including 35 women with primary infertility were included. Over fifty different variants were identified, the majority of which can be attributed to mutations. disrupted α/β-tubulin heterodimer assembly due to homozygous missense mutations, hence hindering meiotic spindle formation and leading to early embryo fragmentation or the creation of many pronuclei and cleavage failure. mutations resulted in spindle disorganization and chromosomal misalignment via disrupting tubulin acetylation and microtubule transport. Mutations in impaired bipolar spindle assembly and microtubule stabilization. In vitro validation studies showed cytoskeletal disturbances, protein instability, and dominant negative effects in transfected animals. Donor egg IVF was the sole effective treatment; however, no viable pregnancies were documented in patients with pathogenic mutations of or . , , and are essential for safeguarding oocyte meiotic competence and early embryonic development at the molecular level. Genetic differences in these genes disrupt microtubule dynamics and spindle assembly, resulting in various aspects of oocyte maturation and fertilization. Functional validation underscores the necessity of routine genetic screening for women experiencing unresolved IVF failure, as it substantiates their causal role in infertility. Future therapeutic avenues in ART may be enhanced by tailored counseling and innovative rescue methodologies like as gene therapy.
体外受精(IVF)的疗效受到早期胚胎发育失败和卵母细胞成熟停滞的显著阻碍。生殖遗传学的最新研究发现了几个卵母细胞特异性基因——[基因名称1]、[基因名称2]和[基因名称3]——是减数分裂纺锤体形成和细胞骨架动力学的关键调节因子。这些基因的突变可导致严重的减数分裂缺陷、受精失败和胚胎停滞。尽管已鉴定出的变异数量不断增加,但基因型与表型之间的联系以及潜在的生物学机制仍未得到充分表征。本系统评价按照PRISMA 2020指南进行。使用关键词“[基因名称1]”、“[基因名称2]”、“[基因名称3]”、“卵母细胞成熟停滞”、“胚胎停滞”和“IVF失败”的组合从PubMed和Embase数据库中检索相关论文。如果研究包含接受IVF治疗的女性中[基因名称1]、[基因名称2]或[基因名称3]突变的临床、基因组和功能数据,则纳入研究。获取了分子数据,包括基因变异分类、遗传模式、体外试验(如HeLa细胞中的微管网络分析)和辅助生殖技术(ART)结果。纳入了18项试验,包括35名原发性不孕症女性。鉴定出五十多种不同的变异,其中大多数可归因于[基因名称1]突变。由于纯合错义突变,[基因名称1]破坏了α/β-微管蛋白异二聚体组装,从而阻碍减数分裂纺锤体形成并导致早期胚胎碎片化或形成多个原核以及卵裂失败。[基因名称2]突变通过破坏微管蛋白乙酰化和微管运输导致纺锤体紊乱和染色体排列错误。[基因名称3]突变损害了双极纺锤体组装和微管稳定性。体外验证研究显示转染动物中存在细胞骨架紊乱、蛋白质不稳定和显性负效应。供体卵IVF是唯一有效的治疗方法;然而,在携带[基因名称1]或[基因名称2]致病突变的患者中未记录到活产妊娠。[基因名称1]、[基因名称2]和[基因名称3]在分子水平上对于保障卵母细胞减数分裂能力和早期胚胎发育至关重要。这些基因的遗传差异破坏了微管动力学和纺锤体组装,导致卵母细胞成熟和受精的各个方面出现问题。功能验证强调了对IVF失败未得到解决的女性进行常规基因筛查的必要性,因为这证实了它们在不孕症中的因果作用。ART未来的治疗途径可能会通过量身定制的咨询和基因治疗等创新挽救方法得到加强。
