Human umbilical cord blood serum can replace fetal bovine serum in the culture of mesenchymal stem cells

The potential of mesenchymal stem cells (MSC) to differentiate into different cell types has opened up the possibility of using these cells clinically to treat a variety of disorders. In this study we describe the use of human umbilical cord blood serum (CBS) as a replacement for fetal bovine serum (FBS) for culturing MSC from different sources. MSC from human and swine bone marrow and human umbilical cord blood were cultured in the presence of DMEM/F12 containing either FBS or CBS. Human MSC cultured in presence of FBS or CBS showed typical fibroblast-like morphology, which is characteristic of MSC. 99% of the cells cultured in FBS had a CD73+/CD105+/CD45- phenotype compared to 96% of cells cultured in CBS. Cells cultured in CBS had a significantly higher cell count as compared to cells cultured in FBS. Swine Bone Marrow MSC cultured in the presence of FBS and CBS were morphologically and phenotypically similar. Human umbilical cord blood serum supports the growth of MSC. While no significant differences were observed in the MSC numbers in swine cells cultured in the presence of FBS or CBS, human cells showed a greater proliferation potential in the presence of CBS as compared to FBS. Therefore, CBS can be used as an effective substitute to FBS for developing clinically useful protocols for culturing MSC.     

Effect of culture media on expansion properties of human umbilical cord matrix-derived mesenchymal cells

Background aims. Mesenchymal stromal cells (MSC) have been isolated from a number of different tissues, including umbilical cord. Because of the lack of a uniform approach to human umbilical cord matrix-derived mesenchymal (hUCM) cell expansion, we attempted to identify the optimum conditions for the production of a high quantity of hUCM cells by comparing two media. Methods. We compared the ability of Dulbecco's Modified Eagle's Medium/F12 (DMEM/F12) and Alpha Minimum Essential Medium (α-MEM) with Glutamax (GL) (α-MEM/GL) to expand hUCM cells. For this purpose, hUCM cells were cultured in plates containing different culture media supplemented with 10% fetal bovine serum (FBS). Culture dishes were left undisturbed for 10-14 days to allow propagation of the newly formed hUCM cells. The expansion properties, CD marker expression, differentiation potential, population doubling time (PDT) and cell activity were compared between the two groups. Results. The hUCM cells harvested from each group were positive for MSC markers, including CD44, CD90 and CD105, while they were negative for the hematopoietic cell surface marker CD34. Differentiation into adipogenic and osteogenic lineages was confirmed for both treatments. Cell activity was higher in the α-MEM/GL group than the DMEM/F12 group. PDT was calculated to be 60 h for the DMEM/F12 group, while for the α-MEM/GL group it was 47 h. Conclusions. Our data reveal that α-MEM/GL with 10% FBS supports hUCM cell growth more strongly than DMEM/F12 with 10% FBS.     

Low-oxygen and knock-out serum maintain stemness in human retinal progenitor cells

Using stem and progenitor cells to treat retinal disorders holds great promise. Using defined culture conditions to maintain the desires phenotype is of utmost clinical importance. We cultured human retinal progenitor cells (hRPCs) in different conditions: such as normoxia (20% oxygen), and hypoxia (5% oxygen) with and without knock-out serum replacement (KOSR) to evaluate its effect on these cells. KOSR is known nutrient supplement often used to replace bovine serum for culturing embryonic or pluripotent stem cells, especially those destined for clinical applications. The purpose of this study was to identify the impact of different environmental and chemical cues to determine if this alters the fate of these cells. Our results indicate that cells cultured with or without KOSR do not show significant differences in viability, but that the oxygen tension can significantly change their viability (higher in hypoxia than normoxia). However, cells with KOSR in hypoxia condition expressed significantly higher stemness markers such as C-myc and Oct4 (31.20% and 13.44% respectively) in comparison to hRPCs cultured in KOSR at normoxia (12.07% and 4.05%). Furthermore, levels of markers for retinal commitment such as rhodopsin were significantly lower in the KOSR supplemented cells in hypoxia culture compared to normoxia. KOSR is known to improve proliferation and maintain stemness of embryonic cells and our experiments suggest that hRPCs maintain their proliferation and stemness characteristics in hypoxia with KOSR supplement. Normoxia, however, results in mature cell marker expression, suggesting a profound effect of oxygen tension on these cells.

     

Retinoic acid stability in stem cell cultures

It has been reported that retinoids, such as retinoic acid (RA) and retinol (ROL), dissolved in aqueous solutions are susceptible to oxidative damage when exposed to light, air, and relatively high temperatures, conditions that are normal for culturing stem cells. Thus, questions arise regarding the interpretation of results obtained from studies of mouse embryonic stem cells exposed to retinoids because their isomerization state, their stability in culture conditions, and their interactions with other potential differentiation factors in growth media could influence developmental processes under study. Media samples were supplemented with retinoids and exposed to cell culture conditions with and without mouse embryonic stem cells (mESC), and retinoids were extracted and analyzed using HPLC. To determine whether retinoids are stable in media supplemented with fetal bovine serum (FBS) or in chemically-defined, serum-free media, mESC adapted to each type of growth media were investigated. Studies reported here indicate there was little loss or isomerization of at-RA, 9-cis-RA, 13-cis-RA, or ROL in cell cultures grown in serum-supplemented media when cell cultures were maintained in the dark and manipulated and observed under yellow light. In contrast, the stability of both at-RA and ROL were determined to be greatly reduced in serum-free media as compared with serum-supplemented media. Addition of 6 mg/ml bovine serum albumin was found to stabilize retinoids in serum-free media. It was also determined that ROL is less stable than RA in cell culture conditions.     

体外分步诱导猕猴胚胎干细胞为肝细胞

采用分阶段诱导方法模拟肝细胞体内发育,建立体外诱导猕猴胚胎干细胞（rhesus monkey embryonic stem cells, rESCs）分化为成熟肝细胞的体系,对研究以ES细胞为基础的临床替代治疗人类晚期肝脏疾病具有重要的意义。将rESCs团块在含有10% FBS的DMEM培养基中悬浮培养11d,形成含有早期内胚层细胞的拟胚体（embryonic bodies, EB）并开始表达早期肝细胞的部分基因或蛋白,将11日龄EB接种至包被有ECM的组织培养皿,分阶段加入aFGF、BMP-4及OSM。经aFGF和BMP-4诱导7～10d后,分化细胞形态变为具有双核的多角形细胞,表达早期和中期肝细胞特异性的蛋白（AFP、ALB及CK18）和基因（AFP、ALB、APOH,G-6-P及TAT）,并具有储存糖原的功能。撤除aFGF和BMP-4,添加OSM继续诱导7～10 d,分化的细胞表达成熟肝细胞所特有基因CYP1B1和ADH1C,并具有摄取靛青绿的能力。     

Fetal bovine serum enables cardiac differentiation of human embryonic stem cells

During development, cardiac commitment within the mesoderm requires endoderm-secreted factors. Differentiation of embryonic stem cells into the three germ layers in vitro recapitulates developmental processes and can be influenced by supplements added to culture medium. Hence, we investigated the effect of fetal bovine serum (FBS) and KnockOut serum replacement (SR) on germ layers specification and cardiac differentiation of H1 human embryonic stem cells (hESC) within embryoid bodies (EB). At the time of EB formation, FBS triggered an increased apoptosis. As assessed by quantitative PCR on 4-, 10-, and 20-day-old EB, FBS promoted a faster down-regulation of pluripotency marker Oct4 and an increased expression of endodermal (Sox17, alpha-fetoprotein, AFP) and mesodermal genes (Brachyury, CSX). While neuronal and hematopoietic differentiation occurred in both supplements, spontaneously beating cardiomyocytes were only observed in FBS. Action potential (AP) morphology of hESC-derived cardiomyocytes indicated that ventricular cells were present only after 2 months of culture. However, quantification of myosin light chain 2 ventricular (mlc2v)-positive areas revealed that mlc2v-expressing cardiomyocytes could be detected already after 2 weeks of differentiation, but not in all beating clusters. In conclusion, FBS enabled cardiac differentiation of hESC, likely in an endodermal-dependent pathway. Among cardiac cells, ventricular cardiomyocytes differentiated over time, but not as the predominant cardiac cell subtype.     

Goat serum: an alternative to fetal bovine serum in biomedical research

Serum is frequently added to the defined basal medium as a source of certain nutritional and macromolecular growth factors essential for cell growth. Although a number of synthetic media have been prepared serum continues to be used in cell culture by many investigators. The best supplementation to a basal medium is fetal bovine serum (FBS) that is most frequently used for all types of cell cultures. During last four decades National Institute of Virology, Pune, has been working on isolation and identification of viruses from clinical specimens, employing tissue culture. Initially FBS was used for this purpose. However, due to its prohibitive cost and uncertain supply an alternative was sought. Commercially available sera from newborn calf, sheep, horse, human and serum obtained from goat blood (available from local abattoir) were tried. Goat serum (GS) was found to be suitable for most of the cell lines and primary cultures. Primary cultures from guinea pig embryo, monkey kidney, chick embryo, mouse peritoneal macrophages, and established cell lines were prepared and grown in growth media supplemented with GS. These cultures were studied for their morphology and growth in comparison with cultures grown in FBS containing media, and were used for mass cultivation of cells, quantitation and susceptibility of various virus strains, studies on effects of different nutrients and natural substances on cellular metabolism and virus replication, epitope analysis of various strains of Japanese encephalitis (JE) virus, strain differentiation studies, studies on antibody dependent plaque enhancement, assay of murine migration inhibition factor. Monoclonal antibodies against JE virus adapted to GS were characterised for their retention of functionalities. The results were comparable to those of cell cultures grown in FBS containing media. Similar results on chromosome studies were obtained from patient's whole blood cultures prepared in GS and FBS containing growth media. Organ cultures from mammalian, reptile and avian hosts; successfully grown in GS supplemented growth media, were used for different virological studies. Growth media supplemented with GS were used for in vitro cultivation of malarial parasites. Thus since the last three decades many scientists are using GS in place of FBS, in various fields of biomedical research. The present article reviews an account of the same.     

KnockoutTM SR无血清培养基支持小鼠精原干细胞的短期存活(简报)

精原干细胞(spermatogonial stem cells,SSCs)是睾丸内具有自我复制和分化为精子潜能的干细胞,它的体外培养是精子发生机理研究和制作转基因动物等的新途径[1,2].近几年的研究表明,SSCs在体外的自我增殖需要GDNF(glial cell line-derived neu-rotrophie factor)因子和饲养层细胞等的支持[3-10].并且睾丸支持细胞(Sertoli's cells)和血清都导致培养的SSCs分化[1,6].因此,使用无血清培养基培养高度纯化的SSCs是培养成败的关键之一.     

鳗鲡肾脏细胞系的建立及其对鳗鲡疱疹病毒的敏感性

为开展鳗鲡病毒性疾病流行病学调查和病原生物学研究, 进行鳗鲡病毒的分离、培养和鉴定, 研究采用组织块培养法, 以欧洲鳗鲡肾脏组织为材料, 建立了欧洲鳗鲡肾脏细胞系(European eel kidney cell line, EEK), EEK形态呈类纤维状, 经过约12个月的培养, 已成功传至38代。通过对其培养液、血清浓度和培养温度等条件进行优化, 发现DMEM/F12、L15培养液均适合其正常生长和增殖, 而在MEM培养液中无法正常生长; 在5%—15%FBS(Fetal Bovine Serum)浓度范围内, 其生长速度随FBS浓度的升高而增快, 当FBS浓度高于20%或过低于5%时, 其生长速率有所减慢; 在22—27℃时生长良好, 但当温度低于17℃和高于32℃时细胞生长速度明显减慢。对EEK细胞进行鳗鲡疱疹病毒(Anguillid herpesvirus, AnHV)敏感性实验, 结果表明该细胞系对鳗鲡疱疹病毒敏感, 可产生明显的细胞病变。EEK的建立丰富了鱼类细胞系的种类, 为鳗鲡病毒性疾病诊断、病毒性病原学研究和病毒疫苗研制提供了重要实验材料。     

搅拌式生物反应器培养促进拟胚体的形成及其向心肌细胞分化

目的：摸索搅拌式生物反应器培养小鼠胚胎干细胞（mESC）的最佳条件,建立一种批量制备拟胚体（EB）的方法。方法：研究mESC不同接种密度及生物反应器初始搅拌速度对EB形成的数量和质量的影响,以细菌培养皿中形成的EB为对照,用抗坏血酸诱导其向心肌细胞分化,比较两种培养体系对EB心肌细胞分化潜能的影响,通过免疫荧光染色及RT PCR对ESC来源的心肌细胞进行鉴定。结果：当mESC接种密度为1×105~3×105个/ml,搅拌速度设定为15~30r/min时,搅拌式生物反应器能高效制备出大量相对均一的EB,EB中几乎没有坏死细胞。与细菌培养皿制备的EB相比,生物反应器培养的EB向心肌细胞分化的效率更高,并表达心肌特异性基因。结论：搅拌式生物反应器培养促进EB的形成及其向心肌细胞分化,是一种更为理想的EB培养系统。     

Muscarinic Receptor Expression in the Primary Culture of Tracheal Smooth Muscle Cells

Abstract

Tracheal smooth muscle cells (TSMCs) were isolated from dog trachea in order to analyze the direct effects of growth factors and hormones on cell proliferation and muscarinic receptor (mAchR) expression. Dissection and dissociation of tracheal smooth muscle tissue with a collagenase I, deoxyribonuclease I and elastase IV mixture resulted in high yield and viability of TSMCs. A screen of growth factors, hormones, and serum concentration for the stimulation of cell growth, reveald that insulin-like growth factor, basic fibroblast growth factor, epidermal growth factor, insulin, transferrin, or hydrocortisone alone at the concentration used was not necessary or sufficient to stimulate growth of TSMCs in the primary culture with DMEM/F-12 containing 1% FBS. The regulation of cell surface mAchR expression in response to serum and cell growth in primary culture of TSMCs has been examined. In the presence of 1% serum, TSMCs withdraw from the cell cycle and express high levels of cell surface mAchRs. Exposure of quiescent TSMCs to 10% serum results in a loss of surface mAchRs. In addition, insulin-like growth factor, insulin or transferrin could stimulate the expression of mAchRs on TSMCs cultured in DMEM/F-12 containing 1% FBS. The results demonstrated that low serum concentration culture system may provide a useful model to elucidate the expression of mAchRs in the culture of TSMCs.     

Rat marrow-derived mesenchymal stem cells developed in a medium supplemented with the autologous versus bovine serum

The controversial effect of autologous serum (AS) on human mesenchymal stem cells (MSC) was studied in rat MSC culture. Rat bone marrow cells were plated in a medium containing either FBS (fetal bovine serum) or AS were cultured to passage 3, during which the population doubling number (PDN) of both cultures were measured and compared statistically. The number of viable cells, the cell colonogic activity, and cell growth rate were also compared. In addition, mineralization in the osteogenic cultures from each system was measured. Our data indicated that AS enriched medium provided a microenvironment in which growth rate as well as bone differentiation of the isolated MSCs were significantly higher than in FBS enriched medium.     

New approach for the establishment of an hepatocyte cell line derived from rat early embryonic stem cells

A cell line with the characteristics of hepatocytes was established from rat early embryonic stem cells (REES). This cell line was established using a new novel method of Ishiwata et al. from two cell embryos taken from the spontaneous dwarf rat (SDR). The hepatocyte cell line (REES-hep) was instituted from dark red colored tissue in embryos during embryogenesis using REES cell line cultured in the presence of embryotrophic factors. These cell lines were cultured with DMEM/F12 medium supplemented 10% FBS and 1 ng/ml of LIF. They were found to maintain their diploid state, were characterized with 42 normal chromosomes and proliferated to confluence; contact inhibition was also present. These cells produced albumin when cultured using a collagen sponge gel system and reconstructed in a funicular form resembling the cell cords of liver. The cells also produced albumin and bilirubin when transplanted into the spleen of SDR Reconstruction of a REES-hep cell line from early embryonic stem cells should help in treating hepatic insufficient patients. It will be valuable for further research, as an introduction to cell transplantation and application for use in a bio-hybrid typed liver apparatus.     

Evaluation of a simple protein free medium that supports high levels of monoclonal antibody production

A simple protein free medium was formulated and tested in suspension culture using three hybridoma cell lines. The medium, referred to as CDSS (Chemically Defined Serum Substitutes), consisted of the basal medium DMEM:Ham F12, 1:1, with HEPES (D12H), plus pluronic F68, trace elements, ferric citrate, ascorbic acid, and ethanolamine. No protein or lipid components were added. All three cell lines were weaned off serum using CDSS and a commercially available protein free medium PFHM-II. Data shown here indicated that normally cells took 1–7 weeks to wean off serum and an additional 2–7 weeks to adapt to suspension culture. After adaptation the cells were able to grow well in suspension culture using both protein free media and in the main performed better than serum containing controls. The stability of the three hybridoma cells for antibody production following freeze/thaw procedures and long term subculturing was also tested. All three lines were frozen using our protein free CDSS medium (containing 0.75% bovine serum albumin and 10% dimethyl sulfoxide) in liquid nitrogen for up to one year. Cells thawed from these stocks recovered well and were able to maintain good growth and antibody production characteristics. One line was shown to grow using our protein free CDSS medium in suspension culture for 12 weeks without loss of antibody productivity.     

Enhancement of human T-lymphocyte growth by human transferrin in the presence of fetal bovine serum

All dividing cells require transferrin as a growth factor. During in vitro culture of human lymphocytes, transferrin is usually supplied in the form of serum, either synergic or xenogenic (usually fetal bovine serum (FBS)). In the present work the growth of certain human T-cell lines was examined; these lines were derived from the synovium of rheumatoid arthritis patients and maintained in 10% FBS and 1% synovial fluid. Their growth especially at limiting dilutions was found to be strongly dependent on the presence of synovial fluid at low concentration (0.05-0.1%) in culture medium containing 10% FBS. Further studies indicated that this effect of synovial fluid was duplicated by human serum or plasma, and was due to the presence of human transferrin. A significant effect on T-cell growth was observed using 2 micrograms/ml human transferrin with optimal growth at 10-20 micrograms/ml. This requirement for human transferrin was not a peculiarity of the synovium-derived T-cell lines, but was observed with all T-cell lines tested irrespective of phenotype or function. These observations suggest that bovine transferrin is inadequate for T-cell growth, and that the growth enhancing properties of FBS do not primarily reflect the provision of transferrin. Since some T cells have recently been shown to be capable of secreting transferrin upon activation, endogenous synthesis of transferrin may be an important factor in the in vitro growth of T cells so that such cells would be selected when FBS is the source of serum used to grow human T-cell lines or clones.     

Characterization of MSCs from human placental decidua basalis in hypoxia and serum deprivation

Recently, we reported that human PDB (placental decidua basalis) is an excellent source of MSCs (mesenchymal stem cells), meanwhile, PDB‐MSCs could survive under hypoxia and serum deprivation. Herein, we investigated the proliferation, clonogentic efficiency, phenotypes, metabolic activity and cytokines secretion of PDB‐MSCs in hypoxia and serum deprivation. PDB‐MSCs were cultured in four groups: normoxia (20% O₂) and complete medium [10% FBS (foetal bovine serum)+DMEM‐HG (Dulbecco's modified Eagle's medium‐high glucose)], hypoxia and complete medium, normoxia and serum deprivation (0% FBS), and hypoxia and serum deprivation. After 96 h of culture in the above groups, PDB‐MSCs maintain the phenotypes stably. Interestingly, hypoxia notably enhanced the proliferation, colony‐forming potential and lactate/glucose ratio in complete medium, but suppressed the secretion of BMP‐2 (bone morphogenetic protein‐2) and bFGF (basic fibroblast growth factor), while it did not change the quantity of VEGF (vascular endothelial growth factor) and bFGF in serum deprivation. Although PDB‐MSCs grew slowly and seldom formed a colony unit in hypoxia and serum deprivation, they possessed a moderate metabolism. In conclusion, our results indicate that PDB‐MSCs appear to be promising seed cells for ischaemia‐related tissue engineering.     

Continuous maintenance of transformed fibroblasts under reduced serum conditions: utility as a model system for investigating growth factor-specific effects in nonquiescent cells

We report the continuous growth maintenance of untransformed and chemically transformed fibroblasts (AKR-2B, AKR-MCA cells) in low concentrations of serum (0.1% FBS). The cell lines established (AKR-0.1F, MCA-0.1F) proliferated at rates comparable to cells maintained under high serum conditions (10% FBS). Complete removal of serum from the cells did not induce quiescence. The MCA-0.1F cells were more similar to the untransformed AKR-2B fibroblasts in their morphology, saturation density, inability to form colonies under anchorage-independent conditions, steady-state level of c-myc expression, and kinetics of induction of c-myc in response to specific growth factors. This report demonstrates the utility of this cell line as a nonquiescent model system for investigating growth factor-specific effects in serum-free, cycling cells. Addition of transforming growth factor-beta (TGF-beta) (5 ng/ml) to proliferating MCA-0.1F cells, in the absence of any serum, induced a multilayered growth pattern at confluency, similar to that of AKR-MCA cells maintained in 10% FBS. Other growth factors tested did not elicit this effect. The induction of this growth pattern by TGF-beta was associated with a sustained induction of the c-myc proto-oncogene at confluency, but not with a restoration of anchorage-independent growth. The data suggest that TGF-beta may play a role in the up-regulation of c-myc at confluency previously described for AKR-MCA cells maintained in 10% serum.