Extrinsic factors derived from mouse embryonal carcinoma cell lines maintain pluripotency of mouse embryonic stem cells through a novel signal pathway

Embryonic carcinoma (EC) cells, which are malignant stem cells of teratocarcinoma, have numerous morphological and biochemical properties in common with pluripotent stem cells such as embryonic stem (ES) cells. However, three EC cell lines (F9, P19 and PCC3) show different developmental potential and self‐renewal capacity from those of ES cells. All three EC cell lines maintain self‐renewal capacity in serum containing medium without Leukemia Inhibitory factor (LIF) or feeder layer, and show limited differentiation capacity into restricted lineage and cell types. To reveal the underlying mechanism of these characteristics, we took the approach of characterizing extrinsic factors derived from EC cells on the self‐renewal capacity and pluripotency of mouse ES cells. Here we demonstrate that EC cell lines F9 and P19 produce factor(s) maintaining the undifferentiated state of mouse ES cells via an unidentified signal pathway, while P19 and PCC3 cells produce self‐renewal factors of ES cells other than LIF that were able to activate the STAT3 signal; however, inhibition of STAT3 activation with Janus kinase inhibitor shows only partial impairment on the maintenance of the undifferentiated state of ES cells. Thus, these factors present in EC cells‐derived conditioned medium may be responsible for the self‐renewal capacity of EC and ES cells independently of LIF signaling.     

Primitive erythropoiesis of mouse teratocarcinoma stem cells PCC3/A/1 in serum-free medium

Mouse teratocarcinoma stem cells PCC3/A/1 differentiated into various types of cells, such as red cells, when they were grown in serum-free medium containing transferrin and bovine serum albumin on a KCF cell feeder layer. These red cells were stained well with 2,7-diaminofluorene (DAF), and therefore were erythroid cells. They were nucleated and contained embryonic globin chains, immunologically identified with antiembryonic hemoglobin antisera after acid urea Triton X-100 polyacrylamide gel electrophoresis (UT-PAGE). The addition of erythropoietin to the culture medium enhanced the production of both embryonic and adult globin chains. The addition of interleukin-3 also enhanced the production of embryonic globin chains, but not the production of adult globin chains. These results indicated that primitive erythropoiesis of PCC3/A/1 teratocarcinoma cells did not require exogenous addition of any hematopoietic factor such as erythropoietin or interleukin-3. This culture system will be a new model system for investigating the factors regulating the primitive erythropoiesis in yolk sac blood islands.     

Transformation of mouse BALB/c 3T3 cells with human basic fibroblast growth factor cDNA.

The expression of human basic fibroblast growth factor (bFGF) cDNA in mouse BALB/c 3T3 clone A31 cells induced morphological transformation. These transformed cells grew well and reached more than a sixfold-higher saturation density than parental A31 cells even in serum-free medium. They were able to form colonies in soft agar. The phenotypic alteration in the transformed cells was reversed by the addition of anti-human bFGF antibodies to the medium. These results suggest that the cellular transformation mediated by bFGF is caused by autocrine stimulation with secreted bFGF molecules.     

Mouse embryonic stem cells and preimplantation embryos require signaling through the phosphatidylinositol 3-kinase pathway to suppress apoptosis

Whereas most mammalian cells require extracellular signals to suppress apoptosis, preimplantation embryos can survive and develop to the blastocyst stage in defined medium without added serum or growth factors. Since cells of these embryos are capable of undergoing apoptosis, it has been suggested that their lack of dependence upon exogenous growth factors results from the production of endogenous growth factors that suppress apoptosis by an autocrine signaling mechanism. In the present study, we have examined the growth factor requirements and intracellular signaling pathways that suppress apoptosis in both mouse preimplantation embryos and embryonic stem (ES) cells, which are derived from the blastocyst inner cell mass. Cultured ES cells, in contrast to intact embryos, required serum growth factors to prevent apoptosis. Suppression of ES cell apoptosis by serum growth factors required the phosphatidylinositol 3-kinase (PI 3-kinase) signaling pathway, since apoptosis was rapidly induced by inhibition of PI 3-kinase with LY294002. In contrast, inhibition of MEK/ERK signaling with U0126 or of mTOR with rapamycin had no detectable effect on ES cell survival. Thus, like most mammalian cells, the survival of ES cells is mediated by growth factor stimulation of PI 3-kinase signaling. Treatment with LY294002 (but not with U0126 or rapamycin) similarly induced apoptosis of mouse blastocysts in serum-free medium, indicating that intact preimplantation embryos are also dependent upon PI 3-kinase signaling for survival. These results demonstrate that PI 3-kinase signaling is required to suppress apoptosis of both ES cells and intact preimplantation embryos, consistent with the hypothesis that survival of preimplantation embryos is maintained by endogenous growth factors that stimulate the PI 3-kinase pathway.     

Assessment of the function of the betaC-subunit of activin in cultured hepatocytes

We assessed the function of the beta(C)-subunit of activin in hepatocytes. We studied the effect of conditioned medium of Chinese hamster ovary (CHO) cell line stably expressing the beta(C) gene (CHO-beta(C)) on growth of AML12 hepatocytes. We also examined the effect of recombinant activin C and transfection of the beta(C) gene by using adenovirus vector. CHO-beta(C) secreted activin C, a homodimer of the beta(C), as well as precursors of the beta(C). The conditioned medium of CHO-beta(C) increased both [(3)H]thymidine incorporation and the cell number in AML12 cells. It also supported survival of AML12 cells in a serum-free condition. Recombinant human activin C also increased both [(3)H]thymidine incorporation and the number of AML12 cells. Transfection of AML12 cells with the beta(C)-subunit led to the stimulation of [(3)H]thymidine incorporation. Analysis of the conditioned medium revealed that the beta(C)-subunit formed a heterodimer with the endogenous beta(A), the formation of which was dependent on the amount of beta(C) expressed. Recombinant activin C did not affect the binding of (125)I-activin A to its receptor or follistatin. These results indicate that activin C stimulates growth of AML12 cells. The beta(C)-subunit modifies the function of the beta(A)-subunit by multiple mechanisms.     

Constitutive expression of insulin-like growth factor 1 and insulin-like growth factor 1 receptor abrogates all requirements for exogenous growth factors.

BALB/c3T3 cells are exquisitely growth regulated and require both platelet-derived growth factor and insulin-like growth factor-1 (IGF-1) for optimal proliferation. BALB/c3T3 cells that constitutively express IGF-1 and elevated levels of IGF-1 receptor (IGF-1R) are capable of growth in serum-free medium without the addition of any exogenous growth factors. BALB/c3T3 cells overexpressing only the IGF-1R plasmid required IGF-1 or insulin for serum-free growth. Antisense oligodeoxynucleotides complementary to IGF-1R mRNA inhibited IGF-1-mediated cell growth. Under these conditions, neither the epidermal growth factor receptor nor phospholipase C gamma 1 was autophosphorylated. These findings indicate that constitutive expression of IGF-1 and IGF-1R allows 3T3 cells to grow in serum-free medium without addition of those exogenous growth factors that are required by the parent cell line.     

The primitive streak gene Mixl1 is required for efficient haematopoiesis and BMP4-induced ventral mesoderm patterning in differentiating ES cells

The homeobox gene Mixl1 is expressed in the primitive streak of the gastrulating embryo, and marks cells destined to form mesoderm and endoderm. The role of Mixl1 in development of haematopoietic mesoderm was investigated by analysing the differentiation of ES cells in which GFP was targeted to one (Mixl1(GFP/w)) or both (Mixl1(GFP/GFP)) alleles of the Mixl1 locus. In either case, GFP was transiently expressed, with over 80% of cells in day 4 embryoid bodies (EBs) being GFP(+). Up to 45% of Mixl1(GFP/w) day 4 EB cells co-expressed GFP and the haemangioblast marker FLK1, and this doubly-positive population was enriched for blast colony forming cells (BL-CFCs). Mixl1-null ES cells, however, displayed a haematopoietic defect characterised by reduced and delayed Flk1 expression and a decrease in the frequency of haematopoietic CFCs. These data indicated that Mixl1 was required for efficient differentiation of cells from the primitive streak stage to blood. Differentiation of ES cells under serum-free conditions demonstrated that induction of Mixl1- and Flk1-expressing haematopoietic mesoderm required medium supplemented with BMP4 or activin A. In conclusion, this study has revealed an important role for Mixl1 in haematopoietic development and demonstrates the utility of the Mixl1(GFP/w) ES cells for evaluating growth factors influencing mesendodermal differentiation.     

Differential expression of inhibin subunits and follistatin, but not of activin receptor type II, during early murine embryonic development.

Activins are known to be potentially important regulators of early developmental processes in amphibians, birds, and mammalians. In this study we report the expression of the inhibin subunits, including those that make up activin, the activin-binding protein follistatin, and activin receptor type II in several in vitro systems that model early murine embryonic development, namely embryonic stem (ES) cells, embryonal carcinoma (EC) cells, and their differentiated derivatives. In addition, we examine the expression pattern of these factors in different stages of the mouse embryo itself. Expression of inhibin alpha and beta A subunits is restricted to certain differentiated cell types, while beta B subunits are expressed in both differentiated and undifferentiated cells. Our results further indicate a change in the expression pattern of inhibin subunits during early development from beta B at the blastocyst stage largely to beta A in postgastrulation embryos. This is similar to the expression pattern at equivalent stages of Xenopus and chick development. Expression of the activin-binding protein follistatin is altered by the induction of differentiation of P19 EC and ES cells by several factors, including retinoic acid. In contrast to the inhibin subunits and follistatin, activin receptor levels are not influenced by differentiation in these cell types. The results of this study demonstrate that the inhibin subunits and follistatin, but not the activin receptor type II, are differentially expressed during early murine development and suggest that the different forms of activin/inhibin are involved in the regulation of different developmental processes.     

Involvement of Oct3/4 in the enhancement of neuronal differentiation of ES cells in neurogenesis-inducing cultures

Oct3/4 plays a critical role in maintaining embryonic stem cell pluripotency. Regulatable transgene-mediated sustained Oct3/4 expression in ES cells cultured in serum-free LIF-deficient medium caused accelerated differentiation to neuroectoderm-like cells that expressed Sox2, Otx1 and Emx2 and subsequently differentiated into neurons. Neurogenesis of ES cells is promoted by SDIA (stromal cell-derived inducing activity), which accumulates on the PA6 stromal cell surface. Oct3/4 expression in ES cells was maintained by SDIA whereas without it expression was promptly downregulated. Suppression of Oct3/4 abolished neuronal differentiation even after stimulation by SDIA. In contrast, sustained upregulated Oct3/4 expression enhanced SDIA-mediated neurogenesis of ES cells. Therefore, Oct3/4 appears to promote neuroectoderm formation and subsequent neuronal differentiation from ES cells.     

Continuous growth of human tumor cell lines in serum-free media

Summary Five human tumor cell lines were studied for growth factor requirements and for replication in serum-free media. Of the five tumor lines HT-29 (colon carcinoma), TWI (melanoma), A-549 (lung carcinoma), Panc-1, (carcinoma of the pancreas) and EJ, (bladder carcinoma) only HT-29 and TWI grew in the serum-free medium (SFM). In a series of additional experiments, a combination of transferrin (5 μg/ml), insulin (5 μg/ml), triiodothyronine (2×10⁻¹⁰ M), epidermal growth factor (20 ng/ml), and selenium (5 ng/ml) was added to Chee’s essential medium (CEM) without serum (C-TITES medium). The C-TITES modification of CEM was found to allow optimal replication of HT-29 and TWI cells. Both HT-29 and TWI cells have replicated continuously in C-TITES medium for periods of more than 15 mo. These cells replicate with slightly lower doubling times than in CEM supplemented with 10% fetal bovine serum. Deletion of insulin or transferrin from the C-TITES medium resulted in cessation of cell growth of HT-29 and TWI. HT-29 assumed a somewhat rounded morphology, whereas TWI grew with the characteristic fibroblastic morphology in C-TITES medium. Cell line EJ did not grow in C-TITES medium. The other two cell lines, A-549 and Panc-1, grew in C-TITES medium but their growth rate was much slower than that in SSM. Availability of cell lines that can be propagated in serum-free, hormone-supplemented medium may aid in the study of the mechanisms by which hormones influence cell growth. This work was supported by Veterans Administration Research Awards to two of the authors (Karimullah A. Zirvi and George J. Hill) and grant no. CA-37138 from the National Cancer Institute.     

Clonal growth and mesenchymal differentiation of PCC3/A/1 teratocarcinoma cells in serum-free medium

Clonal culture of PCC3/A/1 teratocarcinoma stem cells in serum-free medium has been achieved with feeder layers. Under this culture condition, stem cells effectively differentiated into various types of somatic cells, in particular chondrocytes and adipocytes. Myotubes and neuron-like cells also appeared, but infrequently. Embryonic endoderm cells were rarely observed. There appeared to be two stages in the differentiation process; In the early stage, only fibroblastic cells were found with the undifferentiated stem cells. In the later stage, chondrocytes and adipocytes predominated. Chondro-adipocyte differentiation occurred only after fibroblastic cell differentiation, an indication that fibroblastic cells may have an important function in chondro-adipocyte differentiation. Thus, the serum-free culture of PCC3/A/1 cells provides a suitable system with which to study the cell lineages and regulatory mechanisms of chondro-adipocyte differentiation.     

Evaluation of the new serum-free medium (MDSS2) for the production of different biologicals: Use of various cell lines

The presence of serum in cell culture raises safety problems for the production of biologicals, thus a new serum-free medium (MDSS2) was developed. The evaluation of this medium for the growth of different cell lines (BHK-21 C13, BSR and Vero) has shown that cells grew in this medium similarly to standard serum-containing medium, independently of the culture system used: in static (as monolayer) as well as in agitated systems (in suspension in spinner and perfusion reactors). BHK-21 and BSR cells grew as aggregate cultures and could proliferate in both static and agitated culture systems. Vero cells stayed attached to a substrate and proliferated equally in static and in agitated microcarrier-culture systems. The cell densities obtained with BHK-21 cells depended only on the culture system used. They ranged from 2–3×10⁶ to 6–12×10⁶ cells per ml for static batch and perfusion reactor cultures respectively. The cell concentration was 3 to 6 times higher than in classical cultures performed in serum-containing medium. The cell densities obtained with Vero cells were indistinguishable from those obtained in serum-containing medium, whatever the cell culture system used. These cell lines have been used for the production of rabies virus. With respect to BHK-21 and BSR, similar production rates of rabies glycoprotein have been found as in the standard roller bottle process. The production of rabies virus and of viral glycoprotein by Vero cells cultivated in serum-free medium was augmented 1.5-fold and 2.5-fold, respectively, when compared to serum-containing medium.A recombinant BHK-21 cell line, producing human IL-2, can also proliferate in MDSS2, after addition of insulin. The specific IL-2 production rate was augmented 3–4 fold in comparison to serum-containing medium.For the cells tested, the MDSS2 serum-free medium is a good growth and production medium. Its use for cultivating other cell lines and/or for the production of other biologicals is discussed.     

Identification of the two types of specific receptor for activin/EDF expressed on Friend leukemia and embryonal carcinoma cells

Activin and inhibin are polypeptide factors which control the release of follicle stimulating hormone(FSH) from pituitary cells. The recent finding that erythroid differentiation factor(EDF) is identical to activin showed the multifunctional feature of this protein. To identify the specific receptor for activin, the binding of 125I-labeled activinA was investigated for a number of culture cell lines. Friends leukemia cell, which can be differentiated by activin, and embryonal carcinoma(EC) cells(PCC3, P19 and F9), were found to express 3500-20,000 per cell of activin receptors. Scatchard plot analysis of the binding data shows that the receptors on those cells could be divided into two groups with different Kd values. The Kd values of high and low affinity receptors are 0.15-0.4 nM and 1.5-3.0 nM respectively. The proportion of the number of the high and low affinity receptors was varied in each cell. Inhibin was able to compete for activin binding to both types of receptors, although the binding affinity was about 50-200 fold lower than that of activinA. Transforming growth factor-beta had no binding ability to the activin receptors.     

Mycoplasma provides for the spreading of opossum kidney cells in a serum-free,defined medium

Summary During the course of investigating the growth and differentiation of opossum kidney cells in serum-free medium, it was observed that a mycoplasma contamination (M. hyorhinis) contributed to the spreading of cells. Contaminated cells, seeded on collagen-coated plates, spread out and grew to confluency in Dulbecco’s modified eagle’s medium/Ham’s F12 nutrient mixture containing insulin, transferrin, sodium selenite, and bovine serum albumin fraction V. In addition, differentiated characteristics, including parathyroid hormone-inhibitable, sodium-dependent phosphate transport, were expressed by these cells grown in this medium. After the infection was eradicated, the contamination-free cells would not spread out and proliferate in the same serum-free medium as they had done in the presence of mycoplasma. Normal cellular development, however, was attained after cells were plated in serum-free medium that included fetuin. Cells once again spread out, grew to confluency, and were able to express their differentiated characteristics.     

Roles of insulinlike growth factor 1 (IGF-1) and the IGF-1 receptor in epidermal growth factor-stimulated growth of 3T3 cells.

BALB/c3T3 cells are exquisitely growth regulated and require platelet-derived growth factor, epidermal growth factor (EGF), and insulinlike growth factor 1 (IGF-1) for growth. When BALB/c3T3 cells are transfected with plasmids constitutively expressing both EGF and the human IGF-1 receptor mRNAs, the cells are capable of growing in serum-free medium without the addition of any exogenous growth factor. These cells, called p5 cells, can grow for prolonged periods in serum-free medium. BALB/c3T3 cells transfected with only the IGF-1 receptor expression plasmid (p6 cells) do not grow in serum-free medium but do grow if IGF-1 (or insulin in supraphysiological concentrations) is added. p6 cells also grow in response to EGF, confirming that the combination of EGF and an overexpressed IGF-1 receptor is sufficient for the growth of 3T3 cells. We have found that in EGF-stimulated p6 cells there is an increase in the expression of IGF-1 mRNA, that IGF-1 is secreted into the medium, and that the growth of p5 cells and EGF-stimulated p6 cells is inhibited by exposure to antisense oligodeoxynucleotides to IGF-1 receptor RNA. Finally, while cells constitutively expressing both EGF and EGF receptor RNAs grow, albeit modestly, in serum-free medium, their growth is also inhibited by an antisense oligodeoxynucleotide to IGF-1 receptor RNA. In contrast, in cells overexpressing the IGF-1 receptor, IGF-1-mediated cell growth occurs independently of the platelet-derived growth factor and EGF receptors (Z. Pietrzkowski, R. Lammers, G. Carpenter, A. M. Soderquist, M. Limardo, P. D. Phillips, A. Ullrich, and R. Baserga, Cell Growth Differ. 3:199-205, 1992, and this paper). These data indicate that an important role for EGF is participation in the activation of an autocrine loop based on the IGF-1-IGF-1 receptor interaction, which is obligatory for the proliferation of 3T3 cells.     

Substratum-growth factor collaborations are required for the mitogenic activities of activin and FGF on embryonal carcinoma cells

When P19 mouse embryonal carcinoma cells are grown in a serum-free N2 medium on surfaces of tissue culture plastic, they die within two days. The death of these P19 cells is prevented by activin A and basic FGF (bFGF). The cells do not divide under these conditions. However, when P19 cells are cultured on substrata of extracellular matrix proteins such as laminin and fibronectin, activin A and bFGF are potent mitogens. These data show that the substratum to which cells are exposed can regulate their mitogenic response to growth factors.