The role of recombinant proteins in the development of serum-free media

Early developments in serum-free media led to a variety of formulations in which components normally provided in serum and required for growth (insulin, transferrin, lipid supplements, trace elements) and poorly defined components (extracts, hydrolysates) were added to defined basal media. These additives were mostly animal-derived. Given recent concerns about TSEs (transmissible spongiform encephalopathies) and other adventitious agents, the drive in media formulations must be towards elimination of animal-origin materials while maintaining cell line productivity. The progress made towards removing animal-derived components and the use of recombinant proteins in serum-free media for mammalian cells is reviewed.     

Proteome analysis of virus–host cell interaction: rabies virus replication in Vero cells in two different media

The use of Vero cells for rabies vaccine production was recommended from the WHO in 2005. A controlled production process is necessary to reduce the risk of contaminants in the product. One step towards this is to turn away from animal-derived components (e.g. serum, trypsin, bovine serum albumin) and face a production process in animal component-free medium. In this study, a proteomic approach was applied, using 2-D differential gel electrophoresis and mass spectrometry to compare rabies virus propagation in Vero cells under different cultivation conditions in microcarrier culture. Protein alterations were investigated for uninfected and infected Vero cells over a time span from 1 to 8 days post-infection in two different types of media (serum-free versus serum-containing media). For mock-infected cells, proteins involved in stress response, redox status, protease activity or glycolysis, and protein components in the endoplasmic reticulum were found to be differentially expressed comparing both cultivation media at all sampling points. For virus-infected cells, additionally changes in protein expression involved in general cell regulation and in calcium homeostasis were identified under both cultivation conditions. The fact that neither of these additional proteins was identified for cells during mock infection, but similar protein expression changes were found for both systems during virus propagation, indicates for a specific response of the Vero cell proteome on rabies virus infection.     

Fortification of a protein-free cell culture medium with plant peptones improves cultivation and productivity of an interferon-γ-producing CHO cell line

A strong tendency is currently emerging to remove not only serum but also any product of animal origin from animal cell culture media during production of recombinant proteins. This should facilitate downstream processing and improve biosafety. One way consists in the fortification of protein-free nutritive media with plant protein hydrolysates. To investigate the effects of plant peptones on mammalian cell cultivation and productivity, CHO 320 cells, a clone of CHO K1 cells genetically modified to secrete human interferon-gamma (IFN-gamma), were first adapted to cultivation in suspension in a protein-free medium. Both cell growth and IFN-gamma secretion were found to be equivalent to those reached in serum-containing medium. Eight plant peptones, selected on the basis of their content in free amino acids and oligopeptides, as well as molecular weight distribution of oligopeptides, were tested for their ability to improve culture parameters. These were improved in the presence of three peptones, all having an important fraction of oligopeptides ranging from 1 to 10 kDa and a small proportion of peptides higher than 10 kDa. These peptones do not seem to add significantly to the nutritive potential to basal protein-free nutritive medium. Nevertheless, supplementation of an oligopeptide-enriched wheat peptone improved cell growth by up to 30% and IFN-gamma production by up to 60% in shake-flask experiments. These results suggest that the use of plant peptones with potential growth factor-like or antiapoptotic bioactivities could improve mammalian cell cultivation in protein-free media while increasing the product biosafety.     

Biologicals produced from animal cells in culture--an overview

A wide spectrum of biologicals are produced from animal cells in culture. Among these biologicals are viral vaccines (human and veterinary), monoclonal antibodies, immunoregulators, enzymes, hormones, polypeptide growth factors, viral bioinsecticides, tumor antigens, cell mass as a product and reconstitution of living skin. For research and development (R&D) and production of these products requires knowledge and experience in one or more of the following advanced technologies: 1) Development of novel as well as modification of conventional cultivation equipment; 2) Adaptation of cultivation techniques to the production of the desired product; 3) Hybridization technologies; 4) Genetic engineering techniques suitable for animal cells; 5) Development of a wide range of microcarriers and fixed-bed culturing systems; 6) Microencapsulation techniques; 7) Development of suitable media for cell cultivation; 8) Adaptation of suitable protein concentration and purification techniques.     

Optimization of culture conditions for human corneal endothelial cells

Summary Long-term cultivation of human corneal endothelial cells (HCEC) was optimized with respect to different components of the culture system: 25 different nutrient media, different sera, 6 mitogens and various substrates were tested in their ability to influence clonal growth and morphology of HCEC. F99, a 1∶1 mixture of the two media M199 and Ham’s F12, was the most effective basal medium in promoting clonal growth of HCEC. Among various sera, human serum and fetal bovine serum showed optimal growth promoting activities in combination with F99, whereas newborn bovine serum (NBS) was by far superior for the development of a typically corneal endothelial morphology. Crude fibroblast growth factor (FGF), or alternatively endothelial cell growth supplement, was absolutely essential for clonal growth of HCEC at low serum concentrations, for example 5% NBS. Formation of a monolayer with a morphology similar to corneal endothelium in vivo was observed only on culture dishes coated with basal membrane components such as collagen type IV, laminin, or fibronectin. The most pronounced effect on morphologic appearance was obtained by culturing the cells on the extracellular matrix (ECM) produced by bovine corneal endothelial cells. Moreover, ECM could substitute for crude FGF in clonal growth assays.     

通过高表达Igf1/Bcl-2或Bcl-2/Cyclin E基因组合使CHO细胞适于在无蛋白培养基中抗凋亡培养

哺乳动物细胞表达系统是生产重组蛋白药物最常用的表达系统。但在无蛋白培养基中,哺乳动物细胞生长活力差,且容易发生细胞凋亡,因而难以大规模培养。为解决此问题,应用双顺反子表达载体在CHO-dhfr^-细胞中同时表达Igf-1／Bcl-2或Bcl-2／CyclinE基因组合,通过Bcl-2使细胞获得抗凋亡能力;通过1gf-1或CyclinE促进细胞生长分裂,使细胞获得在无蛋白培养基中生长的能力。以上述基因组合转染CHO-dhfr^-细胞,应用Western blot从G418抗性克隆中分别筛选到Bcl-2高表达克隆若干个,对其中表达Bcl-2最高的CHO-IB3和CHO-Bcl做进一步Western blot和流式细胞分析,确认此两个细胞株分别高表达Igf-1／Bcl-2和Bcl-2／CyclinE基因组合。分别通过撤去血清和加入放线菌素D诱导细胞凋亡,并以流式细胞术和DNA Ladder法检测细胞凋亡,证明CHO-IB3和CHO一BCl均具有较强的抗细胞凋亡能力。MTT法证明两个细胞株在不含血清的IMDM培养基中的增殖活力显著高于CHO-dhfr^-对照细胞。在细胞培养瓶中的连续培养实验表明,CHO-IB3和CHO-BCl在本实验室设计的IMEM无蛋白培养基中的生长速度和活细胞数显著高于CHO-dhfr^-对照细胞。提示此两个细胞系能够在无血清培养基中抗凋亡高活力生长,适于作为生物工程宿主细胞。     

Plant-derived human recombinant growth factors and serum albumin maintain stemness of human-induced pluripotent stem cells

Stem cells are an important therapeutic source for recovery and regeneration, as their ability of self-renewal and differentiation offers an unlimited supply of highly specialized cells for therapeutic transplantation. Growth factors and serum are essential for maintaining the characteristics of stem cells in culture and for inducing differentiation. Because growth factors are produced mainly in bacterial (Escherichia coli) or animal cells, the use of such growth factors raises safety concerns that need to be resolved for the commercialization of stem cell therapeutics. To overcome this problem, studies on proteins produced in plants have been conducted. Here, we describe the functions of plant-derived fibroblast growth factor 2 (FGF2) and human serum albumin in the maintenance and differentiation of human-induced pluripotent stem cells (hiPSCs). Plant-derived FGF2 and human epidermal growth factor EGF were able to differentiate hiPSCs into neural stem cells (NSCs). These NSCs could differentiate into neuronal and glial cells. Our results imply that culturing stem cells in animal-free culture medium, which is composed of plant-derived proteins, would facilitate stem cell application research, for example, for cell therapy, by reducing contamination risk.     

Development of New Cell Lines for Animal Cell Biotechnology

Abstract

Mammalian cell culture has been an important technique in laboratory-scale experimentation for many decades. Developments in large-scale culture have been due to the need to grow large numbers of cells to support the growth of viruses for vaccine production, and more recently, for growing hybridoma cells as a source of monoclonal antibody. Increasingly, however, pharmaceutical products such as hormones, enzymes, growth factors, and clotting factors are being produced from cell lines which have been manipulated by recombinant DNA techniques. It is clear, therefore, that the high cost of growing mammalian cells on a large scale does not necessarily prohibit their use for biotechnology, and indeed there is considerable evidence to suggest that animal cell biotechnology will continue to be a major growth area in the future.     

Marc-145细胞无血清培养液组分的优化筛选

目的：对Marc-145细胞无血清培养液组分及浓度进行优化筛选。方法：采用Plackett-Burman设计和中心组合旋转设计对不同的营养成分进行优化筛选。结果：经Plackett-Burman设计,利用20组实验对14种不同营养成分进行考察,发现孕酮、抗氧化试剂、乙醇胺、维生素B12、维生素B12和脂肪酸复合剂对Marc-145细胞无血清悬浮生长的比生长速率有显著影响;针对该6种因素进行中心组合旋转实验设计,利用53组实验筛选出它们的最优使用浓度分别为孕酮5．5mg／L、抗氧化试剂250μL/L、乙醇胺2．1mL／L、维生素B12 2．86mg／L、维生素B6 44μg/L和脂肪酸复合剂215μL/L。结论：经2种实验设计方法优化,确定了Marc-145细胞无血清培养液组分及最适浓度,为无血清悬浮培养Marc-145细胞及增殖猪繁殖及呼吸综合征病毒提供了实验基础。     

Regulation of growth and differentiation of a rat hepatoma cell line by the synergistic interactions of hormones and collagenous substrata

Serum-free, hormonally defined media have been developed for optimal growth of a rat hepatoma cell line. The cells' hormonal requirements for growth are dramatically altered both qualitatively and quantitatively by whether they were plated onto tissue culture plastic or collagenous substrata. On collagenous substrata, the cells required insulin, glucagon, growth hormone, prolactin, and linoleic acid (bound to BSA), and zinc, copper, and selenium. For growth on tissue culture plastic, the cells required the above factors at higher concentrations plus several additional factors: transferrin, hydrocortisone, and triiodothyronine. To ascertain the relative influence of hormones versus substratum on the growth and differentiation of rat hepatoma cells, various parameters of growth and of liver-specific and housekeeping functions were compared in cells grown in serum-free, hormonally supplemented, or serum-supplemented medium and on either tissue culture plastic or type I collagen gels. The substratum was found to be the primary determinant of attachment and survival of the cells. Even in serum-free media, the cells showed attachment and survival efficiencies of 40-50% at low seeding densities and even higher efficiencies at high seeding densities when the cells were plated onto collagenous substrata. However, optimal attachment and survival efficiencies of the cells on collagenous substrata still required either serum or hormonal supplements. On tissue culture plastic, there was no survival of the cells at any seeding density without either serum or hormonal supplements added to the medium. A defined medium designed for cells plated on tissue culture plastic, containing increased levels of hormones plus additional factors over those in the defined medium designed for cells on collagenous substrata, was found to permit attachment and survival of the cells plated into serum-free medium and onto tissue culture plastic. Growth of the cells was influenced by both substrata and hormones. When plated onto collagen gel substrata as compared with tissue culture plastic, the cells required fewer hormones and growth factors in the serum-free, hormone-supplemented media to achieve optimal growth rates. Growth rates of the cells at low and high seeding densities were equivalent in the hormonally and serum-supplemented media as long as comparisons were made on the same substratum and the hormonally supplemented medium used was the one designed for that substratum. For a given medium, either serum or hormonally supplemented, the saturation densities were highest for tissue culture plastic as compared with collagen gels.(ABSTRACT TRUNCATED AT 400 WORDS)     

Change of insulin-like growth factor gene expression in Chinese hamster ovary cells cultured in serum-free media

Although the sera used in animal cell culture media provide the macromolecules, nutrients, hormones, and growth factors necessary to support cell growth, it could also be an obstacle to the production of recombinant proteins in animal cell culture systems used in many sectors of the biotechnology industry. For this reason, many research groups, including our laboratory, have been trying to develop serum-free media (SFM) or serum-supplemented media (SSM) for special or multi-purpose cell lines. The Chinese hamster ovary (CHO) cell, for example, is frequently used to produce proteins and is especially valuable in the large-scale production of pharmaceutically important proteins, yet information about its genome is lacking. Also, SFMs have only been evaluated by comparing growth patterns for cells grown in SFMs with those grown in SSM or by measuring the titer of the target protein obtained from cells grown in each type of medium. These are not reliable methods of obtaining the type of information needed to determine whether an SFM should be replaced with an SSM. We carried out a cDNA microarray analysis to evaluate MED-3, an SFM developed in our laboratory, as a CHO culture medium. When CHO cells were cultured in MED-3 instead of an SSM, several genes associated with cell growth were down-regulated, although this change diminished over time. We found that the insulin-like growth factor (IGF) gene was representative of the proteins that were down-regulated in cells cultured in MED-3. When several key supplements-including insulin, transferrin, ethanolamine, and selenium-were removed from MED-3, theIGF expression was consistently down-regulated and cell growth decreased proportionately. Based on these results, we concluded that when an SFM is used as a culture medium, it is important to supplement it with substances that can help the cells maintain a high level ofIGF expression. The data presented in this study, therefore, might provide useful information for the design and development of SFM or SSM, as well as for the design of genome-based studies of CHO cells to determine how they can be used optimally for protein production in pharmaceutical and biomedical research.     

Identification of genes deregulated during serum-free medium adaptation of a Burkitt's lymphoma cell line

Abstract.  Objective : Serum is usually added to growth media when mammalian cells are cultured in vitro to supply the cells with growth factors, hormones, nutrients and trace elements. Defined proteins and metal ions, such as insulin, growth factors, transferrin and sodium selenite, are sometimes also included and can in some cases substitute serum components. How adaptation to serum free media influences cells has not been studied in detail. Materials and Methods : We have adapted the Burkitt's lymphoma line Ramos to a serum-free medium that supports long-term survival and studied gene expression changes that occurred during the adaptation process. Results and Conclusions : The adaptation process was characterized by initial cell population growth arrest, and after that extensive cell death, followed by proliferation and long-term survival of clonal cultures. Proliferation and cell cycle progression of the serum-free cultures closely mimicked that of serum-dependent cells. Affymetrix micro-array technology was used to identify gene expression alterations that had occurred during the adaptation. Most changes were subtle, but frequently the genes with altered expression were involved in basal cellular functions such as cell division, cell cycle regulation, apoptosis and cell signalling. Some alterations were restored when the cells were transferred back to serum-containing medium, indicating that expression of these genes was controlled by components in serum. Others were not, and may represent changes that were selected during the adaptation process. Among these were, for example, several genes within the Wnt signalling pathway.     

Effects of growth factors and kinase inhibitors on the properties of human adipose-stromal cells in different culture conditions

The best-fit environments for the proliferation and differentiation of human adipose tissue-derived stromal cells (hADSCs) may require specific media and stimuli. The characteristics of hADSCs cultured in different media might be different. We evaluated the effects of growth factors on the proliferation and differentiation of hADSCs and compared the effects of these growth factors on hADSCs cultured in different serum-contained media. The effects of kinase inhibitors on the proliferation of hADSCs were also examined. The combination of insulin-transferrin-selenium (ITS) and fibroblast growth factor (FGF) induced the greatest increase in proliferation, while the combination of ITS and epidermal growth factor (EGF) showed the second-greatest effect in the human serum (HS)-contained media. By contrast, in the fetal bovine serum (FBS)-contained media, ITS had little effect while FGF had better results than the combination of ITS and EGF. The inhibitory potency of the kinase inhibitors was different in the two different media. These results suggest that hADSCs may have different characteristics according to the culture conditions, and that extrapolations of results from animal studies, using FBS media, may not correlate to findings in human studies using HS.     

Serum-free primary culture of normal mouse mammary epithelial and stromal cells

Summary An in vitro serum-free culture system provides an important approach to the understanding of local hormonal regulation of mammary epithelial and fibroblast cells, avoiding the complexity of the in vivo environment and the influence of undefined serum factors. The substratum conditions and medium components have been examined for the basal growth of epithelial cells, fibroblasts, and combined epithelial and fibroblast cells in monolayer cultures. Epithelial cells and mixed cells exhibit good attachment and maintenance on a collagen-coated surface in a minimal medium supplemented with fetuin and insulin. In contrast, fibroblast-enriched cultures require a plastic substratum and a medium supplemented with insulin, fetuin, and hydrocortisone. In mixed cell culture, fibroblasts are maintained well in the minimal media which supports the maintenance of epithelial cells. These results indicate that the presence of epithelial cells in mixed cell cultures can influence fibroblast function. The media developed in the present study can be used in future studies of fibroblast and epithelial cell interactions with regard to hormone and growth factor regulation of their growth and differentiation.     

Cultivation of chicken proventricular epithelial cells and their potential for differentiation

Epithelial cells of chicken proventriculus (glandular stomach) differentiate into two types; luminal and glandular epithelial cells. The molecules regulating the differentiation of proventricular epithelial cells are not well understood. As the first step in screening the molecular determinants involved in the cell differentiation process, we tried to establish an in vitro culture system for isolated proventricular epithelial cells. Various basal media, growth factors and sera were tested. The medium that supports well the proliferation of epithelial cells was composed of Ham's F12 as the basal medium with epidermal growth factor (10 μg/mL), insulin (10 μg/mL), cholera toxin (1 μg/mL) and bovine pituitary extract (100 μg/mL). Fetal calf serum stimulated cell proliferation 1.7-fold, while horse serum was rather toxic. Proventricular epithelial cells proliferated for 3 days, but began to die out within 1 week of culture. Cultured epithelial cells never expressed embryonic chicken pepsinogen (ECPg), a marker gene of glandular epithelial cells, or maintained ECPg expression. The capacity for ECPg expression in cultured epithelial cells was analyzed by recombination with the proventricular mesenchyme and ECPg was detected in epithelial cells cultured up to 3 days. We concluded therefore, that epithelial cells keep the capacity for ECPg expression for 3 days of cultivation and proventricular mesenchymal cells are required for the actual expression of the ECPg gene.     

微载体规模化培养细胞的研究

通过实验探索使用微载体进行动物细胞规模化培养,以期达到建立规模化生产病毒疫苗的目的。实验研究了Vero细胞的生长曲线,以及对细胞生长过程中影响细胞生长的葡萄糖、氨含量两个主要因素的变化规律以及微载体浓度与细胞密度的关系。通过实验发现微载体规模化培养细胞易于操作,比传统转瓶培养的细胞密度高,封闭式的培养方式不但减少了污染几率,而且可以充分保证疫苗的质量。最终找出适宜疫苗培养的微载体使用浓度为2.5g/L,适宜的细胞接种浓度为:1~5×105cell/m l。     

Recombinant human albumin supports single cell cloning of CHO cells in chemically defined media

Biologic drugs, such as monoclonal antibodies, are commonly made using mammalian cells in culture. The cell lines used for manufacturing should ideally be clonal, meaning derived from a single cell, which represents a technically challenging process. Fetal bovine serum is often used to support low cell density cultures, however, from a regulatory perspective, it is preferable to avoid animal‐derived components to increase process consistency and reduce the risk of contamination from adventitious agents. Chinese hamster ovary (CHO) cells are the most widely used cell line in industry and a large number of serum‐free, protein‐free, and fully chemically defined growth media are commercially available, although these media alone do not readily support efficient single cell cloning. In this work, we have developed a simple, fully defined, single‐cell cloning media, specifically for CHO cells, using commercially available reagents. Our results show that a 1:1 mixture of CD‐CHO? and DMEM/F12 supplemented with 1.5 g/L of recombinant albumin (Albucult®) supports single cell cloning. This formulation can support recovery of single cells in 43% of cultures compared to 62% in the presence of serum. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012     

Recombinant interferon-γ secreted by chinese hamster ovary-320 cells cultivated in suspension in protein-free media is protected against extracellular proteolysis by the expression of natural protease inhibitors and by the addition of plant protein hydrolysates to the culture medium

Summary Biosafety requirements increasingly restrict the cultivation of mammalian cells producing therapeutic glycoproteins to conditions that are devoid of any compound of animal origin. On cultivation in serum-free media, the proteases inhibitors, usually found in serum, cannot protect secreted recombinant proteins against unwanted endogenous proteolysis. Chinese hamster ovary (CHO) cells, secreting recombinant human interferon-γ (CHO-320 cell line) and cultivated in suspension in an original protein-free medium, expressed at least two members of the matrix metalloproteinases (MMP), either at the cell surface (proMMP-14 and MMP-14) or secreted (proMMP-9). In addition, tissue- and urinary-type plasminogen activators were also secreted in such culture conditions. At the cell surface, dipeptidyl peptidase IV and tripeptidyl peptidase II (TPPII) activities were also detected, and their activities decreased during time course of batch cultures. The proteolytic activities of these proteins were counterbalanced by (1) their expression as zymogens (proMMP-9, proMMP-14), (2) the expression of their natural inhibitors, tissue inhibitors of metalloproteinases-1 and-2 and plasminogen activator inhibitor-1 (PAI-1), or (3) the addition of plant protein hydrolysates to the culture medium, acting as a nonspecific source of TPPII inhibitors. This study points out that, even in protein-free media, recombinant proteins secreted by CHO cells are actively protected against physiological and unwanted extracellular proteolysis either by endogenous or by exogenous inhibitors.     

MIR spectroscopic analysis on sugar metabolic and ethanol productive kinetics of suspension TBY-2 and rice cells pre-cultured in various media

The influence of sugars in pre-cultivation media suspended plant cells on the kinetics of the sugar uptake and the ethanol production was studied by mid-infrared spectroscopy using a Fourier transform infrared spectrometer (FT-IR) equipped with an attenuate total reflection accessory (ATR). We performed the plant cell cultivation with Nicotiana tabacum cv. Bright Yellow No.2 (TBY-2) cells and Oryza sativa L., Japonica, cv. Nipponbare (rice) cells, respectively, in pre-culture and culture media, which had various types of glucose, fructose, sucrose or glucose–fructose mixtures. The results confirmed the kinetic differences between the TBY-2 cells and rice cells. These results suggested that the TBY-2 cells consumed sugar before growth and the rice cells consumed sugar after growth, moreover, the ethanol content increased just after cell growth was activated based on the non-dimensional cultivation time for the cell growth behavior.     

Dexamethasone facilitates erythropoiesis in murine embryonic stem cells differentiating into hematopoietic cells in vitro

Differentiating embryonic stem (ES) cells are increasingly emerging as an important source of hematopoietic progenitors with a potential to be useful for both basic and clinical research applications. It has been suggested that dexamethasone facilitates differentiation of ES cells towards erythrocytes but the mechanism responsible for sequential expression of genes regulating this process are not well-understood. Therefore, we in vitro induced differentiation of murine ES cells towards erythropoiesis and studied the sequential expression of a set of genes during the process. We hypothesized that dexamethasone-activates its cognate nuclear receptors inducing up-regulation of erythropoietic genes such as GATA-1, Flk-1, Epo-R, and direct ES cells towards erythropoietic differentiation. ES cells were cultured in primary hematopoietic differentiation media containing methyl-cellulose, IMDM, IL-3, IL-6, and SCF to promote embryoid body (EB) formation. Total RNA of day 3, 5, and 9-old EBs was isolated for gene expression studies using RT-PCR. Cells from day 9 EBs were subjected to secondary differentiation using three different cytokines and growth factors combinations: (1) SCF, EPO, dexamethasone, and IGF; (2) SCF, IL-3, IL-6, and TPO; and, (3) SCF IL-3, IL-6, TPO, and EPO. Total RNA from day 12 of secondary differentiated ES cells was isolated to study the gene expression pattern during this process. Our results demonstrate an up-regulation of GATA-1, Flk-1, HoxB-4, Epo-R, and globin genes (alpha-globin, betaH-1 globin, beta-major globin, epsilon -globin, and zeta-globin) in the 9-day-old EBs, whereas, RNA from 5-day-old EBs showed expression of HoxB-4, epsilon-globin, gamma-globin, betaH1-globin, and Flk-1. Three-day-old EBs showed only HoxB-4 and Flk-1 gene expression and lacked expression of all globin genes. These findings indicate that erythropoiesis-specific genes are activated later in the course of differentiation. Gene expression studies on the ES cells of secondary EB origin cultured in media containing dexamethasone showed a down-regulation of GATA-3 and an up-regulation of GATA-1, Flk-1, and Epo-R in comparison to the two other cytokines and growth factor combinations containing media. The secondary differentiation also showed an enhanced production of erythrocytic precursors in dexamethasone containing media in comparison to that in the control media. Our results indicate that dexamethasone can prove to be an effective agent which can be employed to enhance differentiation towards erythrocytic progenitors from ES cells.