Single-cell analysis in endometrial research

IF 0.7 4区医学 Q4 OBSTETRICS & GYNECOLOGY

Reproductive and Developmental Medicine Pub Date : 2022-09-21 DOI:10.1097/RD9.0000000000000037

Dan Cao, Jue Wang, Yuan Yao, W. Yeung

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Abstract

Human endometrium undergoes dynamic shedding, regeneration, and differentiation, with remarkable changes in gene expression across the menstrual cycle. The development of a receptive endometrium within a particular time frame (window of implantation) is critical for successful embryo implantation. To understand the role of the endometrium in human fertility and regenerative biology, transcriptomic characterization of the endometrium has traditionally been pursued at the tissue bulk level using microarray and next-generation sequencing. Owing to the rapid development of single-cell RNA sequencing technology, researchers have uncovered heterogeneous molecular activities in individual cells masked by bulk analysis. In this review, we opted to mainly focus on single-cell analysis in endometrial research and introduce basic knowledge of single-cell RNA sequencing and the isolation of single cells from endometrial cells. We also discussed how single-cell approaches are used to understand the transformation and regeneration of the endometrium physiologically and uncover endometrial factors that contribute to uterine pathology.

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子宫内膜研究中的单细胞分析

人类子宫内膜经历了动态脱落、再生和分化，在整个月经周期中基因表达发生了显著变化。在特定的时间框架内(植入窗口)发育一个接受子宫内膜是成功胚胎植入的关键。为了了解子宫内膜在人类生育和再生生物学中的作用，传统上使用微阵列和下一代测序在组织体水平上追求子宫内膜的转录组学特征。由于单细胞RNA测序技术的快速发展，研究人员已经发现了被大量分析掩盖的单个细胞中的异质分子活动。在这篇综述中，我们选择以子宫内膜研究中的单细胞分析为重点，介绍单细胞RNA测序和子宫内膜单细胞分离的基本知识。我们还讨论了如何使用单细胞方法从生理上理解子宫内膜的转化和再生，并揭示导致子宫病理的子宫内膜因素。

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