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胚胎干细胞分化分析

Profiling of embryonic stem cell differentiation.

作者信息

Shiraki Nobuaki, Ogaki Soichiro, Kume Shoen

机构信息

Department of Stem Cell Biology, Institute of Molecular Embryology and Genetics, Kumamoto University, Honjo 2-2-1, Kumamoto 860-0811, Japan.

出版信息

Rev Diabet Stud. 2014 Spring;11(1):102-14. doi: 10.1900/RDS.2014.11.102. Epub 2014 May 10.

Abstract

Embryonic stem (ES) cells have been shown to recapitulate normal developmental stages. They are therefore a highly useful tool in the study of developmental biology. Profiling of ES cell-derived cells has yielded important information about the characteristics of differentiated cells, and allowed the identification of novel marker genes and pathways of differentiation. In this review, we focus on recent results from profiling studies of mouse embryos, human islets, and human ES cell-derived differentiated cells from several research groups. Global gene expression data from mouse embryos have been used to identify novel genes or pathways involved in the developmental process, and to search for transcription factors that regulate direct reprogramming. We introduce gene expression databases of human pancreas cells (Beta Cell Gene Atlas, EuroDia database), and summarize profiling studies of islet- or human ES cell-derived pancreatic cells, with a focus on gene expression, microRNAs, epigenetics, and protein expression. Then, we describe our gene expression profile analyses and our search for novel endoderm, or pancreatic, progenitor marker genes. We differentiated mouse ES cells into mesendoderm, definitive endoderm (DE), mesoderm, ectoderm, and Pdx1-expressing pancreatic lineages, and performed DNA microarray analyses. Genes specifically expressed in DE, and/or in Pdx1-expressing cells, were extracted and their expression patterns in normal embryonic development were studied by in situ hybridization. Out of 54 genes examined, 27 were expressed in the DE of E8.5 mouse embryos, and 15 genes were expressed in distinct domains in the pancreatic buds of E14.5 mouse embryos. Akr1c19, Aebp2, Pbxip1, and Creb3l1 were all novel, and none has been described as being expressed, either in the DE, or in the pancreas. By introducing the profiling results of ES cell-derived cells, the benefits of using ES cells to study early embryonic development will be discussed.

摘要

胚胎干细胞(ES细胞)已被证明能够重现正常的发育阶段。因此,它们是发育生物学研究中非常有用的工具。对ES细胞来源的细胞进行分析已经产生了关于分化细胞特征的重要信息,并有助于鉴定新的标记基因和分化途径。在这篇综述中,我们重点关注了来自几个研究小组对小鼠胚胎、人类胰岛以及人类ES细胞来源的分化细胞的分析研究结果。来自小鼠胚胎的全基因组表达数据已被用于鉴定参与发育过程的新基因或途径,并寻找调节直接重编程的转录因子。我们介绍了人类胰腺细胞的基因表达数据库(β细胞基因图谱、欧洲糖尿病数据库),并总结了对胰岛或人类ES细胞来源的胰腺细胞的分析研究,重点关注基因表达、微小RNA、表观遗传学和蛋白质表达。然后,我们描述了我们的基因表达谱分析以及对新的内胚层或胰腺祖细胞标记基因的搜索。我们将小鼠ES细胞分化为中内胚层、定形内胚层(DE)、中胚层、外胚层以及表达Pdx1的胰腺谱系,并进行了DNA微阵列分析。提取了在DE和/或表达Pdx1的细胞中特异性表达的基因,并通过原位杂交研究了它们在正常胚胎发育中的表达模式。在所检测的54个基因中,有27个在E8.5小鼠胚胎的DE中表达,15个基因在E14.5小鼠胚胎胰腺芽的不同区域表达。Akr1c19、Aebp2、Pbxip1和Creb3l1都是新发现的基因,之前没有报道称它们在DE或胰腺中表达。通过介绍ES细胞来源细胞的分析结果,将讨论使用ES细胞研究早期胚胎发育的益处。

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