Single-cell transcriptomics of pathological pregnancies

Xin-liang Zhao, G. Tian, Audrey Badillo, W. Ju, N. Zhong
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Abstract

Pregnancy is a complicated process involving various anatomical and physiological changes to provide a suitable environment for fetal development, to meet the increased metabolic demands, and to prepare for labor. While most pregnancies and births are uneventful, all pregnancies are at risk of complications. No less than 15% of all pregnant women develop a potentially lifethreatening complication or may also experience an unpleasant outcome. Conventional sequencing has been widely used in this field for diagnoses and treatment planning. However, it lacks the precise resolution to identify transcriptomic variation between the nearby cell types. Single-cell RNA sequencing is a novel approach that through single-cell isolation, transcript capturing, and development and sequencing of expression libraries allows the assessments of fundamental biological properties of cell populations and biological systems at unprecedented resolution. The single-cell sequencing technology is a powerful tool for investigating cell distribution and cell-to-cell relationships in human reproduction. Since 2016, the technique has contributed to the discovery of many transcriptomic atlases of human embryos, placenta, decidua, and endometrium and the identification of various crucial regulatory pathways in fetal development. Here, we briefly describe the application of single-cell RNA sequencing in the studies of physiological processes and pathological mechanisms of pregnancy.
病理性妊娠的单细胞转录组学
妊娠是一个复杂的过程,涉及各种解剖和生理变化,为胎儿发育提供合适的环境,满足增加的代谢需求,为分娩做准备。虽然大多数怀孕和分娩都平安无事,但所有怀孕都有并发症的风险。不少于15%的孕妇会出现潜在的危及生命的并发症,或者还可能经历不愉快的结果。常规测序已广泛应用于该领域的诊断和治疗计划。然而,它缺乏精确的分辨率来识别附近细胞类型之间的转录组差异。单细胞RNA测序是一种新颖的方法,通过单细胞分离、转录捕获、表达文库的开发和测序,可以以前所未有的分辨率评估细胞群体和生物系统的基本生物学特性。单细胞测序技术是研究人类生殖中细胞分布和细胞间关系的有力工具。自2016年以来,该技术已帮助发现了许多人类胚胎、胎盘、蜕膜和子宫内膜的转录组图谱,并鉴定了胎儿发育中的各种关键调控途径。在这里,我们简要介绍了单细胞RNA测序在妊娠生理过程和病理机制研究中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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