体外精子发生:减数分裂检查点为何重要

2区 生物学 Q1 Biochemistry, Genetics and Molecular Biology
Current Topics in Developmental Biology Pub Date : 2023-01-01 Epub Date: 2022-06-09 DOI:10.1016/bs.ctdb.2022.04.009
Qijing Lei, Ans M M van Pelt, Geert Hamer
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引用次数: 0

摘要

成功的体外精子发生将产生功能性单倍体精子,从而为治疗精子发生障碍患者或开发其他男性生育力保存策略奠定基础。为了在体外重现精子发生过程,人们研究了多种培养策略,包括利用各种干细胞进行细胞培养和睾丸组织体外培养。虽然有些研究描述了完整的减数分裂过程以及随后产生的功能性精子,但减数分裂成功和体外衍生配子所需的染色体突触和同源重组等关键减数分裂事件往往没有报道。为了保证体外形成的精子不出现持续的DNA双链断裂(DSB)和染色体畸变,需要建立评估所有减数分裂过程是否在体外完全完成的标准。在体内,这些减数分裂过程受到减数分裂检查点的严格监控,检查点会消除异常精母细胞。为了建立评估体外减数分裂的标准,我们回顾了以往体外精子发生研究中调查过的减数分裂事件和检查点。我们发现,虽然减数分裂的主要事件如DSB和重组的启动、染色体的完全突触和XY体的形成在体外都能实现,但交叉形成、着丝点频率和检查点机制大多被忽视。此外,圆精子分化为长精子的完整精子发生过程,在体外通过各种细胞培养策略也未能实现。最后,我们讨论了减数分裂检查点对体外精子发生方案和未来临床应用的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In vitro spermatogenesis: Why meiotic checkpoints matter.

Successful in vitro spermatogenesis would generate functional haploid spermatids, and thus, form the basis for novel approaches to treat patients with impaired spermatogenesis or develop alternative strategies for male fertility preservation. Several culture strategies, including cell cultures using various stem cells and ex vivo cultures of testicular tissue, have been investigated to recapitulate spermatogenesis in vitro. Although some studies have described complete meiosis and subsequent generation of functional spermatids, key meiotic events, such as chromosome synapsis and homologous recombination required for successful meiosis and faithful in vitro-derived gametes, are often not reported. To guarantee the generation of in vitro-formed spermatids without persistent DNA double-strand breaks (DSBs) and chromosomal aberrations, criteria to evaluate whether all meiotic events are completely executed in vitro need to be established. In vivo, these meiotic events are strictly monitored by meiotic checkpoints that eliminate aberrant spermatocytes. To establish criteria to evaluate in vitro meiosis, we review the meiotic events and checkpoints that have been investigated by previous in vitro spermatogenesis studies. We found that, although major meiotic events such as initiation of DSBs and recombination, complete chromosome synapsis, and XY-body formation can be achieved in vitro, crossover formation, chiasmata frequency, and checkpoint mechanisms have been mostly ignored. In addition, complete spermiogenesis, during which round spermatids differentiate into elongated spermatids, has not been achieved in vitro by various cell culture strategies. Finally, we discuss the implications of meiotic checkpoints for in vitro spermatogenesis protocols and future clinical use.

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