在单细胞水平上解析环境暴露对生殖细胞的跨代和跨代影响

IF 4.6
Dylan Hatai , Max T. Levenson , Virender K. Rehan , Patrick Allard
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引用次数: 0

摘要

生殖是一个非常复杂的过程,涉及多种细胞类型和器官系统的相互作用,并在很长一段时间内展开,最终产生配子。生殖细胞的开始发育发生在胚胎发育过程中,但人类的生殖细胞发育要到几十年后才完成。生殖及其研究的内在复杂性长期以来一直阻碍着我们破解环境因素如何干扰这一过程的能力。单细胞方法为深入了解毒物对生殖系功能的作用提供了机会,并可分析毒物暴露的反应如何在不同组织和细胞类型之间产生不同的分布。除了单细胞RNA测序外,ATAC测序和多组学等其他单细胞或细胞核水平的方法也扩展了生殖毒理学研究的策略,包括表观基因组和核转录组数据。在此,我们将讨论单细胞技术的现状,以及如何更好地利用这些技术推进生殖毒理学研究。然后,我们将讨论研究不同环境暴露(分别是酒精和电子烟)的两种模式生物(秀丽隐杆线虫和大鼠)的案例研究,以突出单细胞和单核方法在生殖生物学和生殖毒理学中的价值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inter- and trans-generational impacts of environmental exposures on the germline resolved at the single-cell level

Reproduction is a remarkably intricate process involving the interaction of multiple cell types and organ systems unfolding over long periods of time and that culminates with the production of gametes. The initiation of germ cell development takes place during embryogenesis but only completes decades later in humans. The complexity inherent to reproduction and its study has long hampered our ability to decipher how environmental agents disrupt this process. Single-cell approaches provide an opportunity for a deeper understanding of the action of toxicants on germline function and analyze how the response to their exposure is differentially distributed across tissues and cell types. In addition to single-cell RNA sequencing, other single-cell or nucleus level approaches such as ATAC-sequencing and multi-omics have expanded the strategies that can be implemented in reproductive toxicological studies to include epigenomic and the nuclear transcriptomic data. Here we will discuss the current state of single-cell technologies and how they can best be utilized to advance reproductive toxicological studies. We will then discuss case studies in two model organisms (Caenorhabditis elegans and rat) studying different environmental exposures (alcohol and e-cigarettes respectively) to highlight the value of single-cell and single-nucleus approaches for reproductive biology and reproductive toxicology.

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来源期刊
Current opinion in toxicology
Current opinion in toxicology Toxicology, Biochemistry
CiteScore
8.50
自引率
0.00%
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审稿时长
64 days
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