Revealing the molecular landscape of human placenta: a systematic review and meta-analysis of single-cell RNA sequencing studies.

IF 14.8 1区 医学 Q1 OBSTETRICS & GYNECOLOGY
Emilie Derisoud, Hong Jiang, Allan Zhao, Pascale Chavatte-Palmer, Qiaolin Deng
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引用次数: 0

Abstract

Background: With increasing significance of developmental programming effects associated with placental dysfunction, more investigations are devoted to improving the characterization and understanding of placental signatures in health and disease. The placenta is a transitory but dynamic organ adapting to the shifting demands of fetal development and available resources of the maternal supply throughout pregnancy. Trophoblasts (cytotrophoblasts, syncytiotrophoblasts, and extravillous trophoblasts) are placental-specific cell types responsible for the main placental exchanges and adaptations. Transcriptomic studies with single-cell resolution have led to advances in understanding the placenta's role in health and disease. These studies, however, often show discrepancies in characterization of the different placental cell types.

Objective and rationale: We aim to review the knowledge regarding placental structure and function gained from the use of single-cell RNA sequencing (scRNAseq), followed by comparing cell-type-specific genes, highlighting their similarities and differences. Moreover, we intend to identify consensus marker genes for the various trophoblast cell types across studies. Finally, we will discuss the contributions and potential applications of scRNAseq in studying pregnancy-related diseases.

Search methods: We conducted a comprehensive systematic literature review to identify different cell types and their functions at the human maternal-fetal interface, focusing on all original scRNAseq studies on placentas published before March 2023 and published reviews (total of 28 studies identified) using PubMed search. Our approach involved curating cell types and subtypes that had previously been defined using scRNAseq and comparing the genes used as markers or identified as potential new markers. Next, we reanalyzed expression matrices from the six available scRNAseq raw datasets with cell annotations (four from first trimester and two at term), using Wilcoxon rank-sum tests to compare gene expression among studies and annotate trophoblast cell markers in both first trimester and term placentas. Furthermore, we integrated scRNAseq raw data available from 18 healthy first trimester and nine term placentas, and performed clustering and differential gene expression analysis. We further compared markers obtained with the analysis of annotated and raw datasets with the literature to obtain a common signature gene list for major placental cell types.

Outcomes: Variations in the sampling site, gestational age, fetal sex, and subsequent sequencing and analysis methods were observed between the studies. Although their proportions varied, the three trophoblast types were consistently identified across all scRNAseq studies, unlike other non-trophoblast cell types. Notably, no marker genes were shared by all studies for any of the investigated cell types. Moreover, most of the newly defined markers in one study were not observed in other studies. These discrepancies were confirmed by our analysis on trophoblast cell types, where hundreds of potential marker genes were identified in each study but with little overlap across studies. From 35 461 and 23 378 cells of high quality in the first trimester and term placentas, respectively, we obtained major placental cell types, including perivascular cells that previously had not been identified in the first trimester. Importantly, our meta-analysis provides marker genes for major placental cell types based on our extensive curation.

Wider implications: This review and meta-analysis emphasizes the need for establishing a consensus for annotating placental cell types from scRNAseq data. The marker genes identified here can be deployed for defining human placental cell types, thereby facilitating and improving the reproducibility of trophoblast cell annotation.

揭示人类胎盘的分子图谱:单细胞 RNA 测序研究的系统回顾和荟萃分析。
背景:随着与胎盘功能障碍相关的发育编程效应的重要性不断增加,越来越多的研究致力于改善健康和疾病中胎盘特征的描述和理解。胎盘是一个过渡性但动态的器官,在整个妊娠过程中适应胎儿发育和母体供应可用资源需求的变化。滋养细胞(细胞滋养细胞、合胞滋养细胞和体外滋养细胞)是胎盘特异性细胞类型,负责胎盘的主要交换和适应。具有单细胞分辨率的转录组研究使人们在了解胎盘在健康和疾病中的作用方面取得了进展。然而,这些研究往往显示不同胎盘细胞类型的特征存在差异:我们旨在回顾通过使用单细胞 RNA 测序(scRNAseq)获得的有关胎盘结构和功能的知识,然后比较细胞类型特异性基因,突出它们的异同点。此外,我们还打算找出不同研究中各种滋养层细胞类型的共识标记基因。最后,我们将讨论 scRNAseq 在妊娠相关疾病研究中的贡献和潜在应用:我们进行了全面的系统性文献综述,以确定人类母胎界面的不同细胞类型及其功能,重点是使用 PubMed 搜索 2023 年 3 月之前发表的所有原始胎盘 scRNAseq 研究和已发表的综述(共确定了 28 项研究)。我们的方法包括整理以前用 scRNAseq 定义的细胞类型和亚型,并比较用作标记或被鉴定为潜在新标记的基因。接下来,我们使用 Wilcoxon 秩和检验重新分析了六个可用的带有细胞注释的 scRNAseq 原始数据集(四个来自头胎,两个来自足月胎盘)中的表达矩阵,比较了不同研究中的基因表达,并注释了头胎和足月胎盘中的滋养层细胞标记。此外,我们还整合了来自 18 个健康初产胎盘和 9 个足月胎盘的 scRNAseq 原始数据,并进行了聚类和差异基因表达分析。我们还将通过分析注释数据集和原始数据集获得的标记与文献进行了比较,以获得主要胎盘细胞类型的通用特征基因列表:结果:不同研究的取样部位、孕龄、胎儿性别以及后续测序和分析方法均存在差异。尽管比例不同,但所有 scRNAseq 研究都一致鉴定出了三种滋养层细胞类型,这与其他非滋养层细胞类型不同。值得注意的是,在所有研究中,没有任何一种调查细胞类型的标记基因是相同的。此外,一项研究中新定义的大多数标记基因在其他研究中也没有发现。我们对滋养层细胞类型的分析也证实了这些差异,每项研究都发现了数百个潜在的标记基因,但各研究之间几乎没有重叠。我们分别从妊娠头三个月胎盘和足月胎盘中的 35 461 个和 23 378 个高质量细胞中获得了主要的胎盘细胞类型,包括以前在妊娠头三个月胎盘中未发现的血管周围细胞。重要的是,我们的荟萃分析在广泛整理的基础上提供了主要胎盘细胞类型的标记基因:本综述和荟萃分析强调了从 scRNAseq 数据中注释胎盘细胞类型达成共识的必要性。这里确定的标记基因可用于定义人类胎盘细胞类型,从而促进和提高滋养层细胞注释的可重复性。
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来源期刊
Human Reproduction Update
Human Reproduction Update 医学-妇产科学
CiteScore
28.80
自引率
1.50%
发文量
38
期刊介绍: Human Reproduction Update is the leading journal in its field, boasting a Journal Impact FactorTM of 13.3 and ranked first in Obstetrics & Gynecology and Reproductive Biology (Source: Journal Citation ReportsTM from Clarivate, 2023). It specializes in publishing comprehensive and systematic review articles covering various aspects of human reproductive physiology and medicine. The journal prioritizes basic, transitional, and clinical topics related to reproduction, encompassing areas such as andrology, embryology, infertility, gynaecology, pregnancy, reproductive endocrinology, reproductive epidemiology, reproductive genetics, reproductive immunology, and reproductive oncology. Human Reproduction Update is published on behalf of the European Society of Human Reproduction and Embryology (ESHRE), maintaining the highest scientific and editorial standards.
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