Establishment of a human embryonic germ cell line and comparison with mouse and human embryonic stem cells

Human embryonic stem (ES) cells and embryonic germ (EG) cells are pluripotent and are invaluable material for in vitro studies of human embryogenesis and cell therapy. So far, only two groups have reported the establishment of human EG cell lines, whereas at least five human ES cell lines have been established. To see if human EG cell lines can be reproducibly established, we isolated primordial germ cells (PGCs) from gonadal ridges and mesenteries (9 weeks post-fertilization) and cultured them on mouse STO cells. As with mouse ES colonies, the PGC-derived cells have given rise to multilayered colonies without any differentiation over a year of continuous culture. They are karyotypically normal and express high levels of alkaline phosphatase, Oct-4, and several cell-surface markers. Histological and immunocytochemical analysis of embryoid bodies (EBs) formed from floating cultures of the PGC-derived cell colonies revealed ectodermal, endodermal, and mesodermal tissues. When the EBs were cultured in the presence of insulin, transferrin, sodium selenite, and fibronectin for 1 week, markers of primitive neuroectoderm were expressed in cells within the EBs as well as in cells growing out from the EBs. These observations indicate that our PGC-derived cells satisfy the criteria for pluripotent stem cells and hence may be EG cells.     

Isolation, culture, and characterization of embryonic cell lines from vitrified sheep blastocysts

This study was conducted to isolate, to culture, and to characterize embryonic cell lines from in vitro produced vitrified sheep blastocysts. Embryos were produced and vitrified at the expanded blastocyst stage. Ten inner cell masses arising from day 6-7 blastocysts were isolated by immunosurgery, disaggregated, and cultured onto mitomocin-C-inactivated mouse STO fibroblasts (MIF). After 5 or 6 days of culture the primary cell colonies were disaggregated, seeded in a new MIF, and cultured for 3 or 4 days to form new colonies called Passage 1. These cells were then disaggregated and cultured for other two passages. The primary cell colonies and Passage 2 colonies expressed stage specific embryonic markers SSEA-1, SSEA-3, and SSEA-4, and were alkaline phosphatase positive. In the absence of feeder layer and human leukemia inhibitory factor (LIF), these cells differentiated into variety of cell types and formed embryoid bodies. When cultured for an extended period of time, embryoid bodies differentiated into derivatives of three embryonic germ (EG) layers. These were characterized by detection of specific markers for differentiation such early mesoderm (FE-C6), embryonic myosin (F1-652), neural precursor (FORSE-1), and endoderm (anti-cytokeratin 18). To our knowledge, this is the first time that embryonic cell lines from in vitro produced and vitrified ovine blastocysts have been isolated and examined for detection of SSEA markers, and embryoid bodies have been cultured and examined for specific cell surface markers for differentiation.     

Pluripotency of bovine embryonic cell line derived from precompacting embryos

We report herein the establishment of three bovine pluripotent embryonic cell lines derived from 8-16-cell precompacting embryos. Two cell lines were cultured for 10 passages and underwent spontaneous differentiation. One cell line (Z2) has been cultured continuously for over 3 years and has remained undifferentiated. These cells express cell surface markers that have been used routinely to characterize embryonic stem (ES) and embryonic germ (EG) cells in other species such as stage-specific embryonic antigens SSEA-1, SSEA-3, and SSEA-4, and c-Kit receptor. In the absence of a feeder layer, these cells differentiated into a variety of cell types and formed embryoid bodies (EBs). When cultured for an extended period of time, EBs differentiated into derivatives of three EG layers - mesoderm, ectoderm, and endoderm - which were characterized by detection of specific cell surface markers. Our results indicate that the Z2 cell line is pluripotent and resembles an ES cell line. To our knowledge, this is the first bovine embryonic cell line that has remained pluripotent in culture for more than 150 passages.     

Isolation and culture of embryonic stem-like cells from pig nuclear transfer blastocysts of different days

This study was conducted to establish pig embryonic stem (ES)-like cell lines from nuclear transfer blastocysts. A green fluorescent protein (GFP)-expressing cell line was used as the source of donor cells injected into the enucleated oocytes. Blastocysts were collected at D5 (the fifth day), D7 (the seventh day) and D9 (the ninth day). Differential staining was used to assay the viability and development of blastocysts from the 3 days. The number of inner cell mass (ICM) cells increased from 1.83 ± 0.8 (D5) to 5.37 ± 1.2 (D7) to 7.56 ± 1.5 (D9). The expression profiles of embryonic stem (ES) cell factors (OCT4, SOX2, KLF4 and c-MYC) correlated best with the undifferentiated ES state and were identified by qPCR. The expression of the four factors was increased from D5 to D7, whereas the expression decreased from D7 to D9. We tried to isolate ES-like cells from these embryos. However, ES-like cells from the D7 blastocysts grew slowly and expressed alkaline phosphatase. The cells from the D9 blastocysts grew rapidly but did not express alkaline phosphatase. ES-like cells were not isolated from the D5 blastocysts. These results show that the cells from the D7 embryos are pluripotent but grow slowly. The cells from the D9 embryos grow rapidly but start to lose pluripotency.     

Isolation and culture of pluripotent cells from in vitro produced porcine embryos

The present study was designed to examine whether in vitro produced porcine embryos can be used to establish an embryonic stem (ES) cell line. Porcine embryos were produced by in vitro maturation and in vitro fertilization. Embryos at the 4-cell to blastocyst stages were cultured in an ES medium containing 16% fetal bovine serum with mouse embryonic fibroblasts as a feeder layer. It was found that ES-like colonies were derived only from blastocysts. When these ES-like colonies were separated in 0.25% trypsin-0.02% EDTA solution and cultured again, ES-like colonies were further observed in the subsequent culture until the fourth passage. The cells from ES-like colonies showed positive alkaline phosphatase activity. Some cells from the colonies differentiated into several types of cells in vitro when they were cultured in the medium without feeder layers and leukemin inhibitory factor. Embryoid bodies were also formed when the cells were cultured in a suspension status. These results indicate that porcine ES-like cells can be derived from in vitro produced porcine blastocysts and these ES-like cells are pluripotent. The culture system used in the present study is useful to isolate and culture ES cells from in vitro produced porcine embryos.     

Establishment of pluripotent cell lines from porcine preimplantation embryos

Embryonic stem (ES) cells are pluripotent cells isolated from in vitro culture of preimplantation embryos. Experiments were undertaken to identify preimplantation embryonic stages and culture conditions under which pluripotent, porcine embryo-derived cell lines could be isolated. Cell lines were established from in vitro culture of intact, porcine early hatched blastocysts and isolated inner cell masses (ICM) from intermediate and late hatched blastocysts on feeder layers prepared from permanent mouse embryonic fibroblasts (STO). The cells of these porcine embryo-derived cell lines had a morphology similar to that of murine ES cells, but colony morphology was more epithelial-like. The cell lines retained a normal diploid karyotype, consistently expressed alkaline phosphatase activity, and survived cryopreservation. When subjected to in vitro differentiation, either spontaneous or induced, the embryo-derived cell lines differentiated extensively into a wide range of cell types representing the 3 embryonic germ layers. In vivo pluripotency of the cells was demonstrated by birth of a chimeric piglet, documented by pigmentation and DNA markers, and the ability to direct the development of nuclear-transfer embryos to the blastocyst stage. Such pluripotent embryo-derived cells provide a potential route for porcine genetic manipulation.     

Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors

Differentiated cells can be reprogrammed to an embryonic-like state by transfer of nuclear contents into oocytes or by fusion with embryonic stem (ES) cells. Little is known about factors that induce this reprogramming. Here, we demonstrate induction of pluripotent stem cells from mouse embryonic or adult fibroblasts by introducing four factors, Oct3/4, Sox2, c-Myc, and Klf4, under ES cell culture conditions. Unexpectedly, Nanog was dispensable. These cells, which we designated iPS (induced pluripotent stem) cells, exhibit the morphology and growth properties of ES cells and express ES cell marker genes. Subcutaneous transplantation of iPS cells into nude mice resulted in tumors containing a variety of tissues from all three germ layers. Following injection into blastocysts, iPS cells contributed to mouse embryonic development. These data demonstrate that pluripotent stem cells can be directly generated from fibroblast cultures by the addition of only a few defined factors.     

Cloning efficiency following ES cell nuclear transfer is influenced by the methylation state of the donor nucleus altered by mutation of DNA methyltransferase 3a and 3b

The epigenetic state of donor cells plays a vital role in the nuclear reprogramming and chromatin remodeling of cloned embryos. In this study we investigated the effect of DNA methylation state of donor cells on the development of mouse embryos reconstructed with embryonic stem (ES) cell nuclei. Our results confirmed that deletion of the DNA methyltransferase 3a (Dnmt3a) and DNA methyltransferase 3b (Dnmt3b) distinctly decreases the level of DNA methylation in ES cells. In contrast to wild type ES cells (J1), Dnmt3a − / − 3b − / − (DKO) and Dnmt3b − / − (3bKO) donor cells significantly elevated the percentage of embryonic stem cell nuclear transfer (ECNT) morula, blastocysts and postimplantation embryos (P < 0.05). However, the efficiency of establishment of NT-ES cell lines derived from DKO reconstructed blastocysts was not improved, and the expression pattern of OCT4 and CDX2 in cloned blastocysts and postimplantation embryos was not altered either. Our results suggest that the DNA methylation state of the donor nucleus is an important factor in regulation of the donor nuclear reprogramming.     

Isolation and culture of embryonic stem cells from porcine blastocysts

This study was conducted to establish embryonic stem (ES) cell lines from porcine blastocysts. Blastocysts were collected from China miniature pigs at day 7-9 of pregnancy. Embryos were either directly (intact embryos) cultured on mitomysin C-inactivated murine embryonic fibroblasts (MEF) as feeder layers, or were used to isolate the inner cell masses (ICM) by enzyme digestive method and then cultured. It was found that enzyme digestive method could isolate ICMs without any damages of cells in all blastocysts (28). All ICMs attached to the feeder layers. Primary cell colonies were formed in 68% of ICM culture and 28% of intact blastocyst culture. Two ES cell lines derived from ICM passed six subcultures (passages). These cells morphologically resembled mouse ES cells and consistently expressed alkaline phosphatase activity. When the ES cells were cultured in a medium without feeder layer and leukemin inhibitory factor, they differentiated into several types of cells including neuron-like, smooth muscle-like, and epithelium-like cells. Some cells formed embryoid bodies in a suspension culture. These results indicate that porcine ES cell line can be established under the present experimental conditions and these ES cells are pluripotent.     

Mouse embryonic stem (ES) cell lines established from neuronal cell-derived cloned blastocysts

We have established mouse embryonic stem (ES) cell lines from blastocysts derived by transfer of nuclei of fetal neuronal cells. These neuronal cell-derived embryonic cell lines had properties that characterize them as ES cells, including typical cell markers and alkaline phosphatase activity. Moreover, the cells had a normal karyotype and were pluripotent, as they were capable of differentiating into all three germ layers. Although they were derived from neuronal donor nuclei, the cells no longer expressed neuronal markers; however, they were capable of differentiating into cells with neuronal characteristics. These results suggest that the clone-derived cells have fully acquired an ES cell character. Thus, ES cells can be derived from embryos resulting from nuclear transfer, which results in reprogramming of the genetic information and acquisition of pluripotency. ES cells established from somatic cell-derived blastocysts could be useful not only as research tools for studying reprogramming but also as models for cell-based transplantation therapy.     

改进的培养体系在小鼠体细胞核移植及重构胚ES细胞分离培养中的应用

取8周后的雌性昆明小鼠进行超排,取卵母细胞用作核受体,收集卵母细胞周围的卵丘细胞作核供体,进行体细胞核移植。核移植重构胚经SrCl2激活处理6h后,与改良的M16培养液和小鼠输卵管上皮细胞共培养;将发育到早期囊胚阶段的重构胚转移至小鼠胎儿成纤维细胞饲养层上,添加含心肌细胞培养液的ES细胞培养液;把孵出的ICM进行消化接种培养,对孵出的ES细胞集落进行鉴定培养。结果显示,以小鼠卵丘细胞为核供体,体细胞核移植重构胚激活率为65．23％,囊胚发育率为11．69％;9个核移植重构囊胚中分离出ES细胞集落,分离率为2．77％;分离出的核移植ES细胞集落具有岛屿状团状隆起结构、碱性磷酸酶染色呈阳性,体外分化可形成类胚体,并能分化成上皮样或梭形细胞。ES细胞集落经常规冻存和复苏后,显示出同冻存前相似的集落形态,并具有较强的增殖能力。实验证实小鼠输卵管上皮细胞、改良的M16培养液及含心肌细胞培养液的ES细胞培养液可以更为成功地运用于小鼠的体细胞核移植及ES细胞的分离培养研究。     

Isolation of embryonic stem (ES) cells in media supplemented with recombinant leukemia inhibitory factor (LIF)

The isolation of pluripotent murine embryonic stem (ES) cells has previously been achieved by coculturing the ES cells with fibroblast feeder cells. In this report we demonstrate that ES cell lines can be isolated from murine 129/Sv He blastocysts in the absence of feeder cells in culture medium supplemented with recombinant leukemia inhibitory factor (LIF). Three of the ES cell lines (MBL-1, MBL-2, and MBL-3) were isolated by directly explanting blastocysts, whilst two ES cell lines (MBL-4 and MBL-5) were isolated from blastocysts pretreated by immunosurgery. Three of the ES cell lines contained the Y chromosome (MBL-1, MBL-2, and MBL-5) with a high proportion of the cells displaying a normal diploid karyotype with a modal chromosome number of 40. All of the ES cell lines tested expressed the stem cell markers ECMA-7 and alkaline phosphatase, which were lost on removal of LIF when the ES cells differentiated into a variety of cell types. The full developmental potential of the ES cells was determined by injecting cells from two of the independently derived ES cell lines, MBL-1 and MBL-5, into C57BL/6J blastocysts. A high proportion of the pups born were chimeric as judged by coat pigmentation. Subsequent breeding established that the ES cells had contributed to the germ line. These results demonstrate that feeder cells are not essential for the isolation of pluripotent ES cell lines.     

Effects of different feeder layers on culture of bovine embryonic stem cell-like cells in vitro

To find a suitable feeder layer is important for successful culture conditions of bovine embryonic stem cell-like cells. In this study, expression of pluripotency-related genes OCT4, SOX2 and NANOG in bovine embryonic stem cell-like cells on mouse embryonic fibroblast feeder layers at 1–5 passages were monitored in order to identify the possible reason that bovine embryonic stem cell-like cells could not continue growth and passage. Here, we developed two novel feeder layers, mixed embryonic fibroblast feeder layers of mouse and bovine embryonic fibroblast at different ratios and sources including mouse fibroblast cell lines. The bovine embryonic stem cell-like cells generated in our study displayed typical stem cell morphology and expressed specific markers such as OCT4, stage-specific embryonic antigen 1 and 4, alkaline phosphatase, SOX2, and NANOG mRNA levels. When feeder layers and cell growth factors were removed, the bovine embryonic stem cell-like cells formed embryoid bodies in a suspension culture. Furthermore, we compared the expression of the pluripotent markers during bovine embryonic stem cell-like cell in culture on mixed embryonic fibroblast feeder layers, including mouse fibroblast cell lines feeder layers and mouse embryonic fibroblast feeder layers by real-time quantitative polymerase chain reaction. Results suggested that mixed embryonic fibroblast and sources including mouse fibroblast cell lines feeder layers were more suitable for long-term culture and growth of bovine embryonic stem cell-like cells than mouse embryonic fibroblast feeder layers. The findings may provide useful experimental data for the establishment of an appropriate culture system for bovine embryonic stem cell lines.     

Potential of embryonic stem cells

Embryonic stem (ES) cells are pluripotent cell lines established from undifferentiated embryonic cells characterized by nearly unlimited self-renewal and differentiation capacity. During differentiation in vitro, ES cells were found to be able to develop into specialized somatic cells types and to recapitulate processes of early embryonic development. These properties allow to use ES cells as model system for studying early embryonic development by gain- or loss-of-function approaches, or to investigate the effects of drugs and environmental factors on differentiation and cell function in embryotoxicity and pharmacology. Now, ES cells derived of human blastocysts may be used for the generation of somatic precursor or differentiated cells in cell and tissue therapy. The review presents data of mouse ES cell differentiation and gives an outlook on future perspectives and problems of using human ES cells in regenerative medicine.     

利用piggyBac转座子制备牛成体多能干细胞诱导技术研究

通过逆转录病毒等媒介表达核转录因子Oct4、Sox2、Klf4、c-Myc可将体细胞重编程为诱导多能干细胞(induced pluripotent stem cells, iPSc)。时至今日,已经报道了小鼠、人、大鼠、猪、羊、马、牛的iPS细胞,但大动物iPS的多能性特别是嵌合体形成和生殖细胞传代还没有得到确认。与逆转录病毒等不同的是,piggyBac转座子转染效率高且无病毒源性、操作简单,可以在转座酶的存在下被安全切除。首次尝试了采用piggyBac转座子携带鼠源Oct4、Sox2、Klf4、c-Myc、Rarg和Lrh16个核转录因子诱导胎牛成纤维细胞,成功获得牛类iPS细胞,其形态与小鼠胚胎干细胞相似,克隆边界清晰、呈丘状、克隆内细胞致密、核大。RT-PCR与免疫组织化学染色分析均显示牛类iPS细胞表达多能性基因。该类细胞体外诱导分化可形成类胚体EB,且表达3个胚层的基因;体内诱导分化可形成畸胎瘤,苏木精、伊红染色显示瘤体有三胚层的分化。上述结果显示利用piggyBac转座子制备牛多潜能干细胞诱导技术可行,产生的牛类iPS细胞具有潜在多能性。