Trophoblast differentiation and early placental development are essential for the establishment of pregnancy, yet these critical events are not readily investigated in human pregnancy. We used embryoid bodies (EBs) prepared from human embryonic stem (hES) cells as an in vitro model of early human development. The levels of human chorionic gonadotropin (hCG), progesterone, and estradiol-17beta in medium from hES cell-derived EBs grown in suspension culture for 1 wk were higher than unconditioned culture medium or medium from undifferentiated hES cells or spontaneously differentiated hES cell colonies. EBs were explanted into Matrigel (MG) "rafts" and cultured for up to 53 d. During the first 7-10 d of three-dimensional growth in MG, small protrusions appeared on the outer surface of EBs, some of which subsequently extended into multicellular outgrowths. The secretion of hCG, progesterone, and estradiol-17beta began to increase on approximately d 20 of MG culture and remained dramatically elevated over the next 30 d. EBs maintained in suspension culture failed to demonstrate this elevation in hormone secretion. Suspension-cultured and MG-embedded EBs exhibited widespread expression of cytokeratins 7/8, demonstrating extensive epithelial differentiation as well as consistent hCG expression. We propose that hES cell-derived EBs may be a useful model for investigation of human trophoblast differentiation and placental morphogenesis.
The availability of human embryonic stem (HES) cells with a readily evaluated genetic marker such as green fluorescent protein (GFP) could facilitate a number of experimental opportunities. We constructed a novel plasmid with two elongation factor-1alpha (EF-1alpha) promoters (YPL2) to obtain a vector with mammalian promoters for simultaneous transgene expression in HES cells. An enhanced green fluorescent protein (EGFP) cDNA was inserted under the control of the first EF-1alpha promoter to construct plasmid YPL2-EGFP. The second EF1-alpha promoter was upstream of the neomycin resistance gene. H1 HES cells were transfected with YPL2-EGFP using Fugene 6. Following 100 microg/ml neomycin selection, individual colonies demonstrating stable EGFP expression were observed. After 4 months of passage under neomycin selection, the cells continued to maintain typical HES cell morphology. Undifferentiated cells showed no change in EGFP expression as determined by FACS analysis. Immunostaining demonstrated maintenance of Oct-3/4 expression in undifferentiated H1EGFP cells that was indistinguishable from wild-type HES cells. Addition of 10 ng/ml bone morphogenic protein-4 (BMP-4) to the cells provoked morphological and functional differentiation to trophoblasts, but no loss of EGFP expression. Following injection of EGFP-HES cells into immunodeficient mice, there was robust formation of teratomas that demonstrated a broad range of morphological pluripotency with widespread EGFP expression. EGFP expression was also maintained in differentiating embryoid bodies formed from EGFP-HES cells. This report demonstrates that ES cells carrying EGFP will be useful in diverse areas of embryonic stem cell research.
RNA interference (RNAi) using short inhibitory RNAs (siRNAs) has been widely explored for the suppression of cellular mRNA levels to investigate the function of specific genes, including gene function in differentiation and development. The establishment of human embryonic stem cell (hESC) models for differentiation of selected lineages is an area of intense interest and activity. On the basis of our previous work with stable overexpression of enhanced green fluorescent protein (EGFP) in hESC, we used plasmid vector-based siRNA expression to silence EGFP expression in stably-transfected hESC. After hygromycin selection, we derived several cell lines in which EGFP expression was significantly reduced. At the genomic DNA level, there was no difference between the two cell lines and the parental H1EGFP cell line when analyzed with quantitative PCR; however, there were significant differences among the three cell lines at the RNA and protein levels as analyzed with real-time RT-PCR and Western blotting. From these data, we conclude that the decrease in EGFP expression was caused by RNAi, not by genomic DNA loss. Down-regulation of EGFP expression was sustained through multiple passages of both siEGFP cell lines. This simple silencing system will allow novel investigations of target gene function in hESC self-renewal or differentiation, as well as differentiated function in other cell types.
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