At stain positively for CGA and CGB, as well as for a number of other marker genes for placental STB, approximately a week after the stem cells are exposed to the growth factor BMP4 (13, 31, 32). Differentiation is enhanced under conditions that minimize FGF2 signaling, which is usually achieved by excluding FGF2 from the medium and, more recently, by including inhibitors that block pathways needed to maintain stem cell pluripotency (14, 15, 33). The areas are positive for CGA, CGB, and ERVW-1 (Syncytin-1) and have been assumed to be syncytial because, as noted by others studying placental STB formation (34), they lack the characteristic, membrane-associated desmosome staining that demarks surrounding mononucleated cells and MS023 manufacturer demonstrate strands of microfilaments that extend across what appears to be a continuous cytoplasm containing several nuclei that are strongly positive for the transcription factor GATA2 (32). Here, we show that sheets of this putative syncytium can be effectively isolated within a few minutes of dispersing the colonies with a gentle cell dissociation reagent. Then, different size fractions of cell can be captured by filtration through nylon strainers. Our subsequent analyses focused mainly on two cell fractions, one that was largely mononucleated and <40 m in diameter, whereas a second became trapped on a 70-m mesh screen. The intermediate size fraction (40?0 m) contained a mixture of cell types, provided anYabe et al.Fig. 7. Comparative expression of a select group of genes (Top) determined by RNA-seq in different cell fractions with their expression in first and second trimesters and term placental tissue as assessed by microarray. The data for the placental tissue (Bottom) were obtained from GEO profile (www.ncbi.nlm.nih.gov/geoprofiles; GSE9984) (52). Red bars represent transformed hybridization signal counts and blue dots are percentile rank within the sample at first trimester (four datasets at Left; 45?9 d of gestation); second trimester (four datasets in Center; 109?15 d); and term (four datasets at Right; C-section) placentas (data ID: 76726592). Data identifications are as follows: GABRP, 76726592; NTRK2, 76743177; WFDC2, 76725440; VTCN1, 76741153; COL4A5, 76734514; PSG4, 76721077; CSH1, 76728022; and ALPP, 76726212. Yellow highlights illustrate genes expressed differentially between ESCd >70 m and PHTd and at different stages of pregnancy.intermediate transcriptome profile, and was, therefore, of less immediate interest. Subsequent RNA-seq analysis performed on the <40-m and >70-m size fractions allowed the component cell types to be compared with each other and with the progenitor ESCs from which they were derived. The morphological assessments made on the >70-m cell fraction at day 8 of differentiation confirmed that the structures were largely but not entirely syncytial and were rich in endoplasmic reticulum and vesicles presumed to contain secretory product (Fig. 2G). Areas of cell surface GW0742 web richly decorated with microvilli could be observed and likely represent the apical surface of the syncytium. Cells with single nuclei, possibly in the process of fusing with their neighbors, also appeared to be present in the sheets (Figs. 2 C and D and 3 D, H, and I). Our immunohistochemical data show that the syncytial areas both in situ and when dissociated lacked appreciable staining for HLA-G, but were positive for ERVW-1. The appearance of CGA preceded CGB, and its initial synthesis may, as originally predict.At stain positively for CGA and CGB, as well as for a number of other marker genes for placental STB, approximately a week after the stem cells are exposed to the growth factor BMP4 (13, 31, 32). Differentiation is enhanced under conditions that minimize FGF2 signaling, which is usually achieved by excluding FGF2 from the medium and, more recently, by including inhibitors that block pathways needed to maintain stem cell pluripotency (14, 15, 33). The areas are positive for CGA, CGB, and ERVW-1 (Syncytin-1) and have been assumed to be syncytial because, as noted by others studying placental STB formation (34), they lack the characteristic, membrane-associated desmosome staining that demarks surrounding mononucleated cells and demonstrate strands of microfilaments that extend across what appears to be a continuous cytoplasm containing several nuclei that are strongly positive for the transcription factor GATA2 (32). Here, we show that sheets of this putative syncytium can be effectively isolated within a few minutes of dispersing the colonies with a gentle cell dissociation reagent. Then, different size fractions of cell can be captured by filtration through nylon strainers. Our subsequent analyses focused mainly on two cell fractions, one that was largely mononucleated and <40 m in diameter, whereas a second became trapped on a 70-m mesh screen. The intermediate size fraction (40?0 m) contained a mixture of cell types, provided anYabe et al.Fig. 7. Comparative expression of a select group of genes (Top) determined by RNA-seq in different cell fractions with their expression in first and second trimesters and term placental tissue as assessed by microarray. The data for the placental tissue (Bottom) were obtained from GEO profile (www.ncbi.nlm.nih.gov/geoprofiles; GSE9984) (52). Red bars represent transformed hybridization signal counts and blue dots are percentile rank within the sample at first trimester (four datasets at Left; 45?9 d of gestation); second trimester (four datasets in Center; 109?15 d); and term (four datasets at Right; C-section) placentas (data ID: 76726592). Data identifications are as follows: GABRP, 76726592; NTRK2, 76743177; WFDC2, 76725440; VTCN1, 76741153; COL4A5, 76734514; PSG4, 76721077; CSH1, 76728022; and ALPP, 76726212. Yellow highlights illustrate genes expressed differentially between ESCd >70 m and PHTd and at different stages of pregnancy.intermediate transcriptome profile, and was, therefore, of less immediate interest. Subsequent RNA-seq analysis performed on the <40-m and >70-m size fractions allowed the component cell types to be compared with each other and with the progenitor ESCs from which they were derived. The morphological assessments made on the >70-m cell fraction at day 8 of differentiation confirmed that the structures were largely but not entirely syncytial and were rich in endoplasmic reticulum and vesicles presumed to contain secretory product (Fig. 2G). Areas of cell surface richly decorated with microvilli could be observed and likely represent the apical surface of the syncytium. Cells with single nuclei, possibly in the process of fusing with their neighbors, also appeared to be present in the sheets (Figs. 2 C and D and 3 D, H, and I). Our immunohistochemical data show that the syncytial areas both in situ and when dissociated lacked appreciable staining for HLA-G, but were positive for ERVW-1. The appearance of CGA preceded CGB, and its initial synthesis may, as originally predict.
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