不同培养体系对绵羊类胚胎干细胞分离、传代的影响

以小鼠胚胎成纤维细胞(MEF)为饲养层, 研究了用Knockout血清替代品(Knockout serum replacement, KSR)代替胚胎干细胞(Embryonic stem cells, ES cell)培养液中的胎牛血清(FBS)和向含KSR的基础培养液中添加40%的小鼠ES细胞条件培养液(ES cell conditioned medium, ESCCM)对绵羊类ES细胞分离、克隆效率的影响。发现使用含FBS的基础培养液最多可以把绵羊类ES细胞传至3代, 而使用KSR和添加ESCCM能促进绵羊类ES细胞的分离和克隆, 所获得的类ES细胞分别可稳定传至第5和8代。同时对类ES细胞进行核型分析、AKP染色及体外分化能力检测, 证实所分离的类ES细胞符合ES细胞的主要特征。由此认为, 与FBS相比KSR更加适于绵羊类ES细胞的分离与培养; 而小鼠ES细胞在生长过程中可能分泌某些重要的细胞因子, 从而达到促进绵羊ES细胞增值的作用。     

Isolation and characterization of embryonic stem-like cells from canine blastocysts

Embryonic stem (ES) cells are pluripotent cells with the capacity to generate any type of cell. Here we describe the isolation of ES-like cells from canine blastocysts. Canine embryos were collected from beagle bitches at day 11-16 of first estrus. A total of 80 normal embryos were obtained from 15 dogs. Of the embryos, 13 were at the morulae stage, 39 at the blastocyst stage, and 28 at the hatched blastocyst stage. The inside of morulae or inner cell masses (ICMs) of blastocysts were isolated mechanically, and cultured onto mouse embryonic fibroblasts (MEF) as feeder layers. Primary cell colonies were formed in 0% (0/13) of morulae, 25.6% (10/39) of blastocysts, and 67.9% (19/28) of hatched blastocysts. These colonies were separated either by enzymatic dissociation or by mechanical disaggregation. Dissociation with collagenase resulted in immediate differentiation, but with mechanical disaggregation these cells remained undifferentiated, and two ES-like cell lines (cES1, cES2) continued to grow in culture after eight passages. These cells had typical stem cell-like morphology and expressed specific markers such as alkaline phosphatase activity, stage specific embryonic antigen-1 and Oct-4. These cells formed embryoid bodies (EBs) in a suspension culture; extended culture of EBs resulted in the formation of cystic EBs. When the simple EBs were cultured on tissue culture plates, they differentiated into several types of cells including neuron-like, epithelium-like, fibroblast-like, melanocyte-like, and myocardium-like cells. These observations indicate that we successfully isolated and characterized canine ES-like cells.     

Establishment of goat embryonic stem cells from in vivo produced blastocyst-stage embryos

Embryonic stem (ES) cells with the capacity for germ line transmission have only been verified in mouse and rat. Methods for derivation, propagation, and differentiation of ES cells from domestic animals have not been fully established. Here, we describe derivation of ES cells from goat embryos. In vivo-derived embryos were cultured on goat fetal fibroblast feeders. Embryos either attached to the feeder layer or remained floating and expanded in culture. Embryos that attached showed a prominent inner cell mass (ICM) and those that remained floating formed structures resembling ICM disks surrounded by trophectodermal cells. ICM cells and embryonic disks were isolated mechanically, cultured on feeder cells in the presence of hLIF, and outgrown into ES-like colonies. Two cell lines were cultured for 25 passages and stained positive for alkaline phosphatase, POU5F1, NANOG, SOX2, SSEA-1, and SSEA-4. Embryoid bodies formed in suspension culture without hLIF. One cell line was cultured for 2 years (over 120 passages). This cell line differentiated in vitro into epithelia and neuronal cells, and could be stably transfected and selected for expression of a fluorescent marker. When cells were injected into SCID mice, teratomas were identified 5-6 weeks after transplantation. Expression of known ES cell markers, maintenance in vitro for 2 years in an undifferentiated state, differentiation in vitro, and formation of teratomas in immunodeficient mice provide evidence that the established cell line represents goat ES cells. This also is the first report of teratoma formation from large animal ES cells.     

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.     

Isolation and characterization of embryonic stem-like cells derived from in vivo-produced cat blastocysts

Embryonic stem (ES)-like cells were isolated from in vivo-produced cat embryos. Total of 101 blastocysts were collected from female cats. The inner cell mass (ICM) were mechanically isolated and cultured on mitomycin-C-treated cat embryonic fibroblast feeder layers in medium supplemented with knockouttrade mark Serum Replacement (KSR-medium) or fetal bovine serum (FBS-medium). Putative ES-like cell colonies developed in both KSR- and FBS-medium conditions, but formed domed and flat colonies, respectively. ICM cell attachment and ES-like cell colony formation were significantly higher in KSR-medium, but subsequent cell proliferation was significantly lower than in FBS-medium. For passaging, 32 and 18 colonies in KSR- and FBS-medium were separated by enzymatic dissociation or mechanical disaggregation. Enzymatic dissociation resulted in cell differentiation; however, mechanical disaggregation generated cells that remained undifferentiated over more than four passages and yielded two cat ES-like cell lines that continued to grow for up to eight passages in FBS-medium. These cells had typical stem cell morphology, expressed high levels of alkaline phosphatase activity, and were positive for the ES cell-markers Oct-4, stage-specific embryonic antigen-1 (SSEA-1), SSEA-3, and SSEA-4. These cells formed embryoid bodies (EBs) in suspension culture after extended suspension culture. When simple EBs were cultured on tissue culture plates, they differentiated into several cell types, including epithelium-like and neuron-like cells. In addition, EBs were positive for mesoderm marker, desmin. After prolonged in vitro culture, some colonies spontaneously differentiated into beating myocardiocytes, and were positive for alpha-actinin. These observations indicate that cat ES-like cells were successfully isolated and characterized from in vivo-produced blastocysts.     

Initial culture behaviour of rat blastocysts on selected feeder cell lines

To increase our understanding of rat embryos in culture and to attempt the isolation of blastocyst-derived cell lines, we examinated the initial growth behaviour of rat blastocysts from four strains of rat on four different feeder cell layers. The feeders used were a continuous cell line of murine embryonic fibroblasts (STO), primary mouse (MEF) or primary rat (REF) embryonic fibroblasts, and a continuous cell line of rat uterine epithelial cells (RUCs). A medium that gave optimum plating efficiencies for murine ES cells was used in the rat embryo culture. Each culture system allowed hatching and attachment of the blastocysts, that is, the behaviour was similar on each feeder and each strain for the first 2 days in culture. Subsequently, there was a rapid differentiation of the Inner Cell Mass (ICM) cells on fibroblastic feeder cell layers (STO > MEF > REF), and this was generally complete after 3–6 days in primary culture. On RUCs, the ICM was found to increase in size without differentiation up to and including day 4 and in some cases longer. Embryo-derived cells were obtained by disaggregating and passaging ICMs on REF and RUC feeders. Rounded, refractile, and epithelial-like cells were isolated on REF and colonies of ES-like cells on the RUCs. The ES-like cells were positive for expression of alkaline phosphatase and stage-specific embryonic-antigen 1. This is an important first step towards the derivation and culture of pluripotent ES cells from the rat. © 1995 Wiley-Liss, Inc.     

Isolation and characterization of embryonic stem cell-like cells from in vitro produced goat (Capra hircus) embryos

The aim of the present study was to isolate and characterize goat embryonic stem cell-like cells from in vitro produced goat embryos. Inner cell mass (ICM) cells were isolated either mechanically or by enzymatic digestion from 150 blastocysts and 35 hatched blastocysts whereas 100 morulae were used for blastomeres isolation mechanically. The ICM derived cells or blastomeres were cultured on a feeder layer. The primary colony formation was significantly higher (P?相似文献   

Establishment and maintenance of human embryonic stem cell lines on human feeder cells derived from uterine endometrium under serum-free condition

Human embryonic stem (hES) cells are usually established and maintained on mouse embryonic fibroblast (MEFs) feeder layers. However, it is desirable to develop human feeder cells because animal feeder cells are associated with risks such as viral infection and/or pathogen transmission. In this study, we attempted to establish new hES cell lines using human uterine endometrial cells (hUECs) to prevent the risks associated with animal feeder cells and for their eventual application in cell-replacement therapy. Inner cell masses (ICMs) of cultured blastocysts were isolated by immunosurgery and then cultured on mitotically inactivated hUEC feeder layers. Cultured ICMs formed colonies by continuous proliferation and were allowed to proliferate continuously for 40, 50, and 55 passages. The established hES cell lines (Miz-hES-14, -15, and -9, respectively) exhibited typical hES cells characteristics, including continuous growth, expression of specific markers, normal karyotypes, and differentiation capacity. The hUEC feeders have the advantage that they can be used for many passages, whereas MEF feeder cells can only be used as feeder cells for a limited number of passages. The hUECs are available to establish and maintain hES cells, and the high expression of embryotrophic factors and extracellular matrices by hUECs may be important to the efficient growth of hES cells. Clinical applications require the establishment and expansion of hES cells under stable xeno-free culture systems.     

昆明白小鼠胚胎干细胞分离与体外培养

为探索昆明白小鼠胚胎干细胞建系方法,将受孕4.5天的昆明白小鼠囊胚用免疫手术法去除滋胚层,然后将内细胞团(ICM)接种于胎鼠成纤维细胞饲养层上培养,形成的胚胎干细胞样集落用胰蛋白酶-EDTA消化法传代,培养后进行相差显微镜观察及碱性磷酸酶染色。结果饲养层上生长的ICM细胞呈典型的ES样细胞集落,传至第8代碱性磷酸酶染色呈强阳性。实验表明免疫手术法适用于昆明白小鼠ES细胞建系,获得的细胞集落具有ES细胞的主要生物学性状。     

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.     

山羊胚胎干细胞的分离与培养

对关中奶山羊配种后6～7天的桑椹胚和囊胚,分别采用全胚培养法、酶消化法和免疫外科法进行处理.将处理后的胚胎培养于小鼠胎儿成纤维细胞(MEF)饲养层上,分离培养山羊胚胎干细胞(Embryonic stem cell,ESC).对分离传代的山羊ESCs分别进行免疫组化染色,RT-PCR检测和体外诱导分化试验.结果表明.全胚培养法易于胚胎贴壁形成原代集落,采用全胚培养法获得的ESCs有一株目前已传至18代.山羊ESCs Nanong、Oct4、SSEA-3免疫组化染色呈阳性,SSEA-1免疫组化染色呈弱阳性,SSEA-4免疫组化染色呈阴性,RT-PCR检测显示其表达Nanog、Oct4、端粒酶、CD117.山羊ESCs经DMSO体外诱导可以向心肌细胞分化.这些试验均表明该细胞具有ESCs的生物学特性.     

Rat bone marrow derived mesenchymal progenitor cells support mouse ES cell growth and germ-like cell differentiation

Mouse embryonic fibroblasts (MEFs) have been used as feeder cells to support the growth of mouse embryonic stem cell (mESC) and primordial germ cells (PGC) in culture for many years. However, MEF preparation is a complex and tedious task. Recently, there are reports indicating that the microenvironment provided by bone marrow stromal cells could support the survival of embryonic-like stem cells in bone marrow. In this report, rat bone marrow derived mesenchymal progenitor cells (MPC) were used as feeder cells to culture mouse Oct4-GFP ES cell and ES cell derived germ cells. FACS results show that similar to MEF, rat MPC could efficiently support growth of the mouse Oct4-GFP ES cell line in culture (MPC 85.5 ± 5.1% vs MEF 84.1 ± 6.2%). ES cells could be subcultured for >15 passages without losing morphological characteristics. The cultured cells expressed stem cell marker alkaline phosphatase, Oct4, Sox2, and SSEA-1. Furthermore, rat MPC cells were able to support survival of germ cells isolated from mouse Oct4-GFP ES cell formed embryoid bodies (EB). After induction by retinoic acid for 7 days, some isolated cells differentiated to spermatogonial stem-like cells, expressing Mvh, Stra-8, Hsp90-α, integrinβ1 and α6. Compared with traditional MEF culture systems, the rat MPC culture system is effective in supporting ES cell growth and is easy to prepare.     

A human endothelial cell feeder system that efficiently supports the undifferentiated growth of mouse embryonic stem cells

Feeder cells are commonly used to culture embryonic stem cells to maintain their undifferentiated and pluripotent status. Conventionally, mouse embryonic fibroblasts (MEFs), supplemented with leukemia inhibitory factor (LIF), are used as feeder cells to support the growth of mouse embryonic stem cells (mESCs) in culture. To prepare for fresh MEF feeder or for MEF-conditioned medium, sacrifice of mouse fetuses repeatedly is unavoidable in these tedious culture systems. Here we report the discovery of a human endothelial cell line (ECV-304 cell line) that efficiently supports growth of mESCs LIF-free conditions. mESCs that were successfully cultured for eight to 20 passages on ECV-304 feeders showed morphological characteristics similar to cells cultured in traditional feeder cell systems. These cells expressed the stem cell markers Oct3/4, Nanog, Sox2, and SSEA-1. Furthermore, cells cultured on the ECV-304 cell line were able to differentiate into three germ layers and were able to generate chimeric mice. Compared with traditional culture systems, there is no requirement for mouse fetuses and exogenous LIF does not need to be added to the culture system. As a stable cell line, the ECV-304 cell line efficiently replaces MEFs as an effective feeder system and allows the efficient expansion of mESCs.     

Properties of murine embryonic stem cells maintained on human foreskin fibroblasts without LIF

In embryonic stem (ES) cells, leukemia inhibitory factor (LIF)/STAT3, wnt and nodal/activin signaling are mainly active to control pluripotency during expansion. To maintain pluripotency, ES cells are typically cultured on feeder cells of varying origins. Murine ES cells are commonly cultured on murine embryonic fibroblasts (MEFs), which senesce early and must be frequently prepared. This process is laborious and leads to batch variation presenting a challenge for high-throughput ES cell expansion. Although some cell lines can be sustained by exogenous LIF, this method is costly. We present here a novel and inexpensive culture method for expanding murine ES cells on human foreskin fibroblast (HFF) feeders. After 20 passages on HFFs without LIF, ES cell lines showed normal expression levels of pluripotency markers, maintained a normal karyotype and retained the ability to contribute to the germline. As HFFs do not senesce for at least 62 passages, they present a vast supply of feeders.     

以人皮肤成纤维细胞作为饲养层细胞培养人胚胎干细胞

目的：比较人皮肤成纤维细胞（humandermalfibroblasts,HDFs）与小鼠胚胎成纤维细胞（Mouseembryonicfibroblasts,MEFs）的增殖能力及研究人皮肤成纤维细胞作为饲养层支持人胚胎干细胞（humanembryonicstemcells,hESCs）未分化生长的能力。方法：利用组织贴壁法从人皮肤中分离出HDFs,通过细胞形态的观察和生长曲线的绘制比较HDFs与MEFs的体外增殖能力。将HDFs作为饲养层细胞与hESCs共培养,传代12代后,检测hESCs碱性磷酸酶（AKP）、表面特异性标志及胚胎干细胞特异性转录因子。结果：HDFs可连续传代培养15代以上,10代以下的HDFs增殖迅速,而MEFs自第4代起,增殖能力就明显下降;hESCs在HDFs饲养层上可传代培养12代以上,克隆边界清晰,细胞排列紧密,碱性磷酸酶、表面标志物检测均呈阳性,表达了hESCs特异性转录因子。结论：HDFs比MEFs具有更强的增殖能力;HDFs可作为培养hEscs的饲养层细胞。     

Mouse embryonic stem cell-derived feeder cells support the growth of their own mouse embryonic stem cells

Feeder cells are usually used in culturing embryonic stem cells (ESCs) to maintain their undifferentiated and pluripotent status. To test whether mouse embryonic stem cells (mESCs) may be a source of feeder cells to support their own growth, 48 fibroblast-like cell lines were isolated from the same mouse embryoid bodies (mEBs) at three phases (10th day, 15th day, 20th day), and five of them, mostly derived from 15th day mEBs, were capable of maintaining mESCs in an undifferentiated and pluripotent state over 10 passages, even up to passage 20. mESCs cultured on the feeder system derived from these five cell lines expressed alkaline phosphatase and specific mESCs markers, including SSEA-1, Oct-4, Nanog, and formed mEBs in vitro and teratomas in vivo. These results suggest that mEB-derived fibroblasts (mEB-dFs) could serve as feeder cells that could sustain the undifferentiated growth and pluripotency of their own mESCs in culture. This study not only provides a novel feeder system for mESCs culture, avoiding a lot of disadvantages of commonly used mouse embryonic fibroblasts as feeder cells, but also indicates that fibroblast-like cells derived from mESCs take on different functions. Investigating the molecular mechanisms of these different functional fibroblast-like cells to act on mESCs will contribute to the understanding of the mechanisms of mESCs self-renewal.     

Use of BRL-conditioned medium in combination with feeder layers to isolate a diploid embryonal stem cell line

Summary The derivation of a karyotypically normal embryonal stem (ES) cell line, E14, from inner cell masses (ICMs) isolated by immunosurgery from 129/Ola late mouse blastocysts is described. Disaggregated ICMs were cultured on mitotically-arrested fibroblast feeder layers in droplets of medium conditioned with Buffalo rat liver (BRL) cells under oil. BRL-conditioned medium inhibits the differentiation of established embryonal carcinoma (EC) and ES cell lines which can be maintained indefinitely in the complete absence of feeder cells (Smith and Hooper 1987). At clonal densities, however, a combination of BRL-conditioned medium and a feeder layer was most effective in preventing the differentiation of E14 cells. This effect was less pronounced at higher passage suggesting it may be particularly important to use a combination in the early stages of isolation. Once established, E14 has been maintained in BRL-conditioned medium alone. In non-conditioned medium on agarose, E14 cells formed embryoid bodies which when allowed to reattach differentiated into a wide variety of tissues. An HPRT-deficient sub line of E14, E14TG2a, has been demonstrated to form germline chimaeras with high efficiency after injection into blastocysts (Hooper et al. 1987). The modifications to the ES cell isolation procedure described here may improve the efficiency with which karyotypically normal lines can be derived.     

Formation of germ-line chimeras from embryonic stem cells maintained with recombinant leukemia inhibitory factor

Murine embryonic stem (ES) cells can be maintained as stem cells in vitro only in the presence of feeder cells or a soluble factor produced by a number of cell lines. We have previously demonstrated that leukemia inhibitory factor (LIF) is the molecule which prevents ES cell differentiation in culture. In this report we demonstrate that recombinant LIF can substitute for feeder cells in maintaining the full developmental potential of ES cells. The totipotent D3 ES cell line, previously isolated and maintained on growth-arrested primary embryo fibroblasts, was transferred to media supplemented with 1000 U/ml (10 ng/ml) recombinant LIF. In the presence of LIF the ES cells were maintained for over 2 months as undifferentiated cells in the absence of any feeder cells. When injected into blastocysts the ES cells which had been maintained in LIF-supplemented media efficiently formed germ-line chimeras.     

Isolation of embryonic stem-like cells from equine blastocysts and their differentiation in vitro

Embryonic stem (ES) cells are pluripotent cells with the potential capacity to generate any type of cell. We describe here the isolation of pluripotent ES-like cells from equine blastocysts that have been frozen and thawed. Our two lines of ES-like cells (E-1 and E-2) appear to maintain a normal diploid karyotype indefinitely in culture in vitro and to express markers that are characteristic of ES cells from mice, namely, alkaline phosphatase, stage-specific embryonic antigen-1, STAT-3 and Oct 4. After culture of equine ES-like cells in vitro for more than 17 passages, some ES-like cells differentiated to neural precursor cells in the presence of basic fibroblast growth factor (bFGF), epidermal growth factor and platelet-derived growth factor. We also developed a protocol that resulted in the differentiation of ES-like cells in vitro to hematopoietic and endothelial cell lineages in response to bFGF, stem cell factor and oncostatin M. Our observations set the stage for future developments that may allow the use of equine ES-like cells for the treatment of neurological and hematopoietic disorders.