The differentiation of teratocarcinoma stem cells is marked by the types of collagen which are synthesized.

A cloned line of undifferentiated teratocarcinoma cells (OC15S1) was either maintained as a homogeneous embryonal carcinoma (EC) cell population or was cultured under conditions where the cells differentiated into endoderm-like (END) cells. In this study we examine the synthesis of collagen in both EC and END cells. Cell cultures were incubated with tritiated proline and lysine, and the radioactive collagen secreted into the medium was extracted and purified or immunoprecipitated by antibodies to type IV collagen (Adamson and Ayers, 1979). Radioactive collagens were identified by electrophoretic mobility, by sensitivity to collagenase and to reduction, by insensitivity to pepsin, by cyanogen bromide peptides, and by aminoacid analyses of 3-hydroxyproline, 4-hydroxyproline and proline. OC15S1 EC cells were found to synthesize several collagenous polypeptides, of which 60–70% of the radioactivity was like that of basement membrane (type IV) collagen. Type I-like collagen was the main collagenous product of END cells, but a minor product of EC cells. We concluded that type IV collagen synthesis was suppressed during the differentiation of EC cells to END, while type I-like synthesis was increased. Similarly, other EC cell lines produced mainly type IV-like collagen polypeptides (PC13, F9, PSA1), and following the formation of END cells, two lines produced mainly type I-like collagen polypeptides (PC13, C145b). The type of endoderm formed on embryoid bodies, however, presents an alternate route of differentiation, since immunoperoxidase tests showed that it was synthesizing significant amounts of type IV collagen. We discuss the significance of these findings in relation to a similar change which occurs during normal development.     

Serum-free culture of PC13 murine embryonal carcinoma cells

The requirements for the serum-free culture of PC13 murine embryonal carcinoma cells were determined. Supplementation of a 50:50 mixture of Dulbecco's modified Eagles medium and MCDB104 with transferrin (5 μg/ml), human high-density lipoprotein (HDL) (100 μg/ml), and human low-density lipoprotein (LDL) (50 μg/ml) supported growth comparable to that observed with 5% foetal calf serum. Media supplementation with lipoproteins apparently substitutes for the effects of insulin, desoctapeptide insulin (DOP), or multiplication-stimulating activity (MSA) on EC cell multiplication. Clonal growth of PC13 EC cells in this serum-free medium could only be achieved in the presence of suitable feeder cell monolayers. These observations demonstrate that PC13 EC cells do not have an absolute requirement for exogenous mitogens to support multiplication.     

Identification and characterization of polypeptide growth factors secreted by murine embryonal carcinoma cells

Undifferentiated P19 and PC13 murine embryonal carcinoma (EC) cells have been analyzed for their ability to secrete polypeptide growth factors. This has been carried out by a combination of specific bioassays and the use of biochemical and immunological detection methods. Both P19 and PC13 EC cells secrete a platelet-derived growth factor (PDGF)-like growth factor, a type beta transforming growth factor, and insulin-like growth factors. In addition, PC13 EC cells secrete a heparin-binding growth factor functionally related to fibroblast growth factor, while P19 EC cells secrete transforming growth factor-alpha. This is the first demonstration for secretion of transforming growth factor-alpha by an equivalent of early embryonic cells. The possible paracrine growth stimulating effects of these growth factors have been tested on differentiated derivatives of P19 EC cells, corresponding to all three germ layers. The differences in growth factor production by various embryonal carcinoma cells are discussed in relation to the developmental origin of these cell lines.     

PC13 embryonal carcinoma-derived growth factor.

A potent growth factor, PC13 embryonal carcinoma-derived growth factor (ECDGF), has been isolated from serum-free medium conditioned by PC13 murine embryonal carcinoma cells. ECDGF is a single chain, cationic hydrophobic molecule of 17 500 daltons. ECDGF will induce DNA synthesis in established fibroblast cell lines and the immediate differentiated progeny of PC13 EC cells in vitro, and consequently appears to differ from other well characterised growth factors both in structure and action.     

Basic fibroblast growth factor is an extracellular matrix component required for supporting the proliferation of vascular endothelial cells and the differentiation of PC12 cells

Vascular endothelial cells (ECs) seeded sparsely on extracellular matrix (ECM) will proliferate in the absence of exogenous basic fibroblast growth factor (bFGF). This ECM will also stimulate neurite outgrowth in PC12 cells in the absence of exogenous growth factors. We have previously shown that bFGF is found in subendothelial ECM (Vlodavsky, I., J. Folkman, R. Sullivan, R. Fridman, R. Ishai-Michaeli, J. Sasse, and M. Klagsburn. 1987. Proc. Natl. Acad. Sci. USA. 84:2292-2296) and in basement membranes (Folkman, J., M. Klagsburn, J. Sasse, M. Wadzinski, D. Ingber, and I. Vlodavsky. 1988. Am. J. Pathol. 130:393-400). The actual requirement of ECM-associated bFGF for the growth of ECs and differentiation of PC12 cells was shown in two ways. First, polyclonal anti-bFGF antibodies added to subendothelial ECM inhibited both EC proliferation and PC12 neurite outgrowth. Secondly, PF-HR-9 cells, which do not synthesize bFGF and which produce an ECM not permissive for EC proliferation and PC12 neurite outgrowth, were transfected with bFGF cDNA. PF-HR-9 cells transfected with bFGF, but not with the dominant selectable marker SV2-neomycin, were found to express bFGF and to produce an ECM which did support both EC proliferation and PC12 differentiation. The ECM-mediated stimulatory effects were inhibited by anti-bFGF antibodies but not by anti-nerve growth factor antibodies or nonimmune rabbit IgG. These results indicate that bFGF associated with ECM is a required ECM component for ECM-mediated cell proliferation and differentiation.     

Culture and properties of cells derived from Kaposi sarcoma

We describe the establishment of four continuous cell cultures isolated from pleural or peritoneal fluid of patients with Kaposi sarcoma (KS) and show evidence that these cells are derived from vascular endothelium. Although provision of an extracellular matrix (fibronectin, laminin, or matrigel) was essential, the cell cultures were not dependent on exogenously added growth factors (platelet-derived growth factor, epidermal growth factor with or without heparin) for continuous culture. Specific staining for endothelial cell (EC) markers (factor VIII, Ulex europaeus type 1 lectin) and the secretion of endothelin, a vascular EC product, were demonstrated. The KS cells secreted large amounts of cytokines (granulocyte-macrophage-CSF, TNF-alpha, IL-1 beta, and especially IL-6). Conditioned media from the KS cells caused normal capillary EC to proliferate. The KS cells synthesized fibroblast growth activity in amounts sufficient to induce the proliferation of normal EC and fibroblasts. These data support the existence of a paracrine pathway of EC proliferation in KS and suggest that KS cells could sustain their own growth via an autocrine mechanism.     

Implications of Proprotein Convertases in Ovarian Cancer Cell Proliferation and Tumor Progression: Insights for PACE4 as a Therapeutic Target

Proprotein convertases are a family of kexin-like serine proteases that process proteins at single and multiple basic residues. Among the predicted and identified PC substrates, an increasing number of proteins having functions in cancer progression indicate that PCs may be potential targets for antineoplastic drugs. In support of this notion, we identified PACE4 as a vital PC involved in prostate cancer proliferation and progression, contrasting with the other co-expressed PCs. The aim of the present study was to test the importance of PCs in ovarian cancer cell proliferation and tumor progression. Based on tissue-expression profiles, furin, PACE4, PC5/6 and PC7 all displayed increased expression in primary tumor, ascites cells and metastases. These PCs were also expressed in variable levels in three model ovarian cell lines tested, namely SKOV3, CAOV3 and OVCAR3 cells. Since SKOV3 cells closely represented the PC expression profile of ovarian cancer cells, we chose them to test the effects of PC silencing using stable gene-silencing shRNA strategy to generate knockdown SKOV3 cells for each expressed PC. In vitro and in vivo assays confirmed the role of PACE4 in the sustainment of SKOV3 cell proliferation, which was not observed with the other three PCs. We also tested PACE4 peptide inhibitors on all three cell lines and observed consequent reduced cell proliferation which was correlated with PACE4 expression. Overall, these data support a role of PACE4 in promoting cell proliferation in ovarian cancer and provides further evidence for PACE4 as a potential therapeutic target.     

The location and synthesis of transferrin in mouse embryos and teratocarcinoma cells

In early postimplantation mouse development, transferrin synthesis appears to be a marker of visceral endoderm cell types. Transferrin was identified using immunoperoxidase staining, in the proximal (visceral) endoderm of the sixth-day egg cylinder, in some tissues at later stages, and in the visceral yolk sac (VYS) at all stages examined. Since the location of a plasma protein does not necessarily indicate its site of synthesis, the incorporation of labeled amino acids into transferrin was studied. Synthesis could be detected in egg cylinders on the seventh day of gestation onwards and in the VYS at all stages. However, although endoderm was the likely tissue source, its ability to synthesize transferrin after its isolation from the embryo was either much reduced or absent. The data are suggestive of a modulating influence by mesoderm and other cell types on transferrin synthesis in visceral endoderm cells. Three types of endoderm-like cells which are produced by teratocarcinoma embryonal carcinoma (EC) cells were analyzed for transferrin synthesis to assess possible parallels with the embryo. Embryoid bodies from PSA1 EC cells contained some outer endoderm cells which stained for transferrin and others which did not. The endoderm line PSA5E but not PYS-2 synthesized transferrin. The third type of endoderm-like cell (END cells) synthesized very little (OC15S1) or no (PC13 clone 5) transferrin. The conclusion that PSA5E, OC15 END, and some differentiated PSA1 cells have visceral endoderm-like character while PYS-2 reflects parietal endoderm phenotype is in agreement with published data.     

Histone H10 mRNA and protein accumulate early during retinoic acid induced differentiation of synchronized embryonal carcinoma cells

The very lysine-rich replacement histone variant H1⁰ is found to be present in different murine (C1003, PC13, P19) and human (Tera-2) embryonal carcinoma cell lines. The proportion of H1⁰ increases upon induction of differentiation of the different cell lines by various treatments. In undifferentiated PC13 EC cells H1⁰ mRNA is present at a low level. During retinoic acid induced differentiation of mitotically synchronized PC13 EC cells, accumulation of H1⁰ mRNA starts in the first cell cycle. The H1⁰ protein level starts to increase in the second synchronous cycle preceding changes in the cycle parameters that become apparent in the third cycle. The results provide further support for an important role of H1⁰ in the control of cellular differentiation in early mammalian development.Abbreviations EC embryonal carcinoma - RA retinoic acid - DAPT 4-6-diamino-2-phenylindole - SDS sodium dodecylsulphate - DMSO dimethyl sulfoxide - TCA trichloro acetic acid     

Expression of EGF receptor and transferrin by F9 and PC13 teratocarcinoma cells

We document the time of appearance and the levels of two markers of differentiation during the formation of embryoid bodies by two embryonal carcinoma (EC) cell lines. Neither of these markers has been described before for EC cells differentiating in aggregate culture, and they further extend the identification and characterization of new cell types. Both F9 and PC13 EC cell lines form embryoid bodies (so-called because they resemble early mouse embryos) with an outer epithelial layer of visceral endoderm cells, after suspension culture in the presence of retinoic acid. However, the two cell lines differ in the procedures needed to initiate the differentiation process. Once floating aggregate cultures have been formed, the time course of the appearance of epidermal growth factor (EGF) receptors and of the secretion of transferrin are similar in both cell lines, although the levels differ. EGF receptors and transferrin are quantified by 125I-EGF binding assays and enzyme-linked immunosorbent assays (ELISA) using specific antibodies, respectively. The expression of EGF receptors increases about two fold while that of transferrin increases up to 40 fold after treating F9 aggregates with retinoic acid. The EGF receptors reach a maximum 4 days after adding retinoic acid and then decline, while transferrin only increases later from a low but detectable level. For PC13 cells, EGF receptors increase tenfold, and transferrin synthetic rate increases 40 fold during the time-course. Interestingly, unstimulated F9 cells in monolayer cultures also express low levels of these markers, while the levels in PC13 EC cells are barely detectable above background.(ABSTRACT TRUNCATED AT 250 WORDS)     

Cell cycle analysis during retinoic acid induced differentiation of a human embryonal carcinoma-derived cell line

Several subclones of the human embryonal carcinoma (EC) cell line Tera-2 can be induced to differentiate in monolayer culture by retinoic acid (RA) to a flattened cell type with reduced growth rate. Using a method based on the transition probability model, we have analysed changes in cell cycle kinetics of Tera-2 cells during the differentiation process. Growth inhibition was shown to occur without a lag period and to be partly due to an increase in the duration of the S-phase, but with a relatively greater contribution from an increase in the duration of G1-phase. Since the fraction of the cell population in the G1-phase then doubled, cells accumulated in this part of the cycle. In contrast, the reduced proliferation rate of two murine EC cell lines, PC13 and P19, treated with RA occurs after a lag period of about two cell cycles and is mainly attributable to an increase in the duration of the S-phase. The results illustrate a differential response of human and murine EC cells to growth regulation by RA and again emphasize that although the stem cells of murine teratocarcinomas may provide a useful model, they are not identical to their human counterparts.     

Expression of EGF receptor and transferrin by F9 and PC13 teratocarcinoma cells

Abstract. We document the time of appearance and the levels of two markers of differentiation during the formation of embryoid bodies by two embryonal carcinoma (EC) cell lines. Neither of these markers has been described before for EC cells differentiating in aggregate culture, and they further extend the identification and characterization of new cell types. Both F9 and PC13 EC cell lines form embryoid bodies (so-called because they resemble early mouse embryos) with an outer epithelial layer of visceral endoderm cells, after suspension culture in the presence of retinoic acid. However, the two cell lines differ in the procedures needed to initiate the differentiation process. Once floating aggregate cultures have been formed, the time course of the appearance of epidermal growth factor (EGF) receptors and of the secretion of transferrin are similar in both cell lines, although the levels differ. EGF receptors and transferrin are quantified by ¹²⁵I-EGF binding assays and enzyme-linked immunosorbent assays (ELISA) using specific antibodies, respectively. The expression of EGF receptors increases about two fold while that of transferrin increases up to 40 fold after treating F9 aggregates with retinoic acid. The EGF receptors reach a maximum 4 days after adding retinoic acid and then decline, while transferrin only increases later from a low but detectable level. For PCI 3 cells, EGF receptors increase tenfold, and transferrin synthetic rate increases 40 fold during the time-course. Interestingly, unstimulated F9 cells in monolayer cultures also express low levels of these markers, while the levels in PC13 EC cells are barely detectable above background. A variety of other teratocarcinoma EC cell lines either do not express these markers at detectable levels or express very low levels. One explanation of our finding is that F9 cells, unlike most other EC cell lines, are already partially differentiated along the pathway to endoderm.     

B-cell-derived interleukin 1 (IL-1)-like factor. I. Relationship of production of IL-1-like factor to accessory cell function of Epstein-Barr virus-transformed human B-lymphoblast lines

The relationship of production of interleukin 1 (IL-1)-like factor to accessory function of Epstein-Barr virus (EBV)-transformed B lymphocytes was examined. Six of eight human EBV-B cell lines spontaneously produced and released detectable levels of thymocyte comitogenic factor in vitro, but no interleukin 2 (IL-2) activity. Eight of eight produced fibroblast proliferation activity. Culture supernatants from the two apparent nonproducers of thymocyte comitogenic activity induced the proliferation of the IL-1-dependent murine helper-T-cell clone D10G4.1 in the presence of concanavalin A (Con A). One of the EBV-B cell lines produced a potent inhibitory factor in addition to IL-1-like thymocyte comitogenic and fibroblast proliferation factors. The inhibitory factor inhibited mouse thymocyte proliferative response to Con A, and the proliferation of the IL-2-dependent CT6 cell line, but not human fibroblast growth. All but one of the eight EBV-B cell lines tested, the exception being the line that produced an inhibitory factor, were able to serve as antigen-presenting cells that enabled purified human T lymphocytes to proliferate in one-way mixed lymphocyte reactions (MLR) and in response to Con A. The supernatants of 14 of 16 clones derived from two of the EBV-B cell line cells contained thymocyte comitogenic activity and all 16 stimulated fibroblast proliferation. The phenotypic characteristics of the EBV-B cell lines were heterogeneous, but there was no clear-cut relationship between the cell surface phenotypes of either the cloned or uncloned EBV-B cells and their ability to produce these factors. These studies show that all of the EBV-B cell lines that can function as accessory cells have the capacity to produce an IL-1-like factor.     

SNT, a differentiation-specific target of neurotrophic factor-induced tyrosine kinase activity in neurons and PC12 cells.

To elucidate the signal transduction mechanisms used by ligands that induce differentiation and the cessation of cell division, we utilized p13suc1-agarose, a reagent that binds p34cdc2/cdk2. By using this reagent, we identified a 78- to 90-kDa species in PC12 pheochromocytoma cells that is rapidly phosphorylated on tyrosine following treatment with the differentiation factors nerve growth factor (NGF) and fibroblast growth factor but not by the mitogens epidermal growth factor or insulin. This species, called SNT (suc-associated neurotrophic factor-induced tyrosine-phosphorylated target), was also phosphorylated on tyrosine in primary rat cortical neurons treated with the neurotrophic factors neurotrophin-3, brain-derived neurotrophic factor, and fibroblast growth factor but not in those treated with epidermal growth factor. In neuronal and fibroblast cells, where NGF can also act as a mitogen, SNT was tyrosine phosphorylated to a much greater extent during NGF-induced differentiation than during NGF-induced proliferation. SNT was phosphorylated in vitro on serine, threonine, and tyrosine in p13suc1-agarose precipitates from NGF-treated PC12 cells, indicating that this protein may be a substrate of kinase activities associated with p13suc1-p34cdc2/cdk2 complexes. In addition, SNT was associated predominantly with nuclear fractions following subcellular fractionation of NGF-treated PC12 cells. Finally, in PC12 cells, NGF-stimulated tyrosine phosphorylation of SNT was dependent on the levels of Trk tyrosine kinase activity and was constitutively induced by expression of pp60v-src. However, Ras was not required for constitutive SNT tyrosine phosphorylation, suggesting that this protein functions distally to Trk and pp60v-src but in a pathway parallel to that of Ras. SNT is the first identified specific target of differentiation factor-induced tyrosine kinase activity in neuronal cells.     

Pyruvate Carboxylase Is Up-Regulated in Breast Cancer and Essential to Support Growth and Invasion of MDA-MB-231 Cells

Pyruvate carboxylase (PC) is an anaplerotic enzyme that catalyzes the carboxylation of pyruvate to oxaloacetate, which is crucial for replenishing tricarboxylic acid cycle intermediates when they are used for biosynthetic purposes. We examined the expression of PC by immunohistochemistry of paraffin-embedded breast tissue sections of 57 breast cancer patients with different stages of cancer progression. PC was expressed in the cancerous areas of breast tissue at higher levels than in the non-cancerous areas. We also found statistical association between the levels of PC expression and tumor size and tumor stage (P < 0.05). The involvement of PC with these two parameters was further studied in four breast cancer cell lines with different metastatic potentials; i.e., MCF-7, SKBR3 (low metastasis), MDA-MB-435 (moderate metastasis) and MDA-MB-231 (high metastasis). The abundance of both PC mRNA and protein in MDA-MB-231 and MDA-MB-435 cells was 2-3-fold higher than that in MCF-7 and SKBR3 cells. siRNA-mediated knockdown of PC expression in MDA-MB-231 and MDA-MB-435 cells resulted in a 50% reduction of cell proliferation, migration and in vitro invasion ability, under both glutamine-dependent and glutamine-depleted conditions. Overexpression of PC in MCF-7 cells resulted in a 2-fold increase in their proliferation rate, migration and invasion abilities. Taken together the above results suggest that anaplerosis via PC is important for breast cancer cells to support their growth and motility.     

甘丙肽对PC12细胞和B104细胞增殖的不同影响

本实验运用PCI2细胞和B104细胞对甘丙肽（GAL）在神经增殖上的作用进行了研究。运用RT-PCR方法检测GAL及其受体在PCI2细胞和B104细胞中的表达：运用MTT法检测GAL及其受体激动剂、拮抗剂对两种细胞增殖的影响。结果显示：PCI2细胞表达所有三种GAL受体（GalRs）．而不表达GAL;B104细胞表达GAL及两种受体GaIR2和GalR3,而不表达GalRl;GAL及其受体激动剂GAL1-11和GAL2-11能够明显地抑制PC12细胞增殖、却会明显促进B104细胞的增殖。这些效应皆可被非特异性GAL受体拮抗剂M35所阻断。结果说明,GAL可以通过其受体影响细胞的增殖．并且不同受体可能介导不同的作用。     

High-efficiency cryopreservation of Araucaria angustifolia (Bertol.) Kuntze embryogenic cultures: ultrastructural characterization and morpho-physiological features

Here we evaluated and characterized the growth dynamics of A. angustifolia embryogenic cultures (EC) submitted to different cryotreatment incubation times through morphological and time-lapse cell tracking analyzes. The EC submitted to cryopreservation protocol were evaluated by regrowth rates, and ultrastructural characterization by transmission electron microscopy (TEM). The results indicated that A. angustifolia EC support all the cryoprotection times evaluated, without cell proliferation inhibition, but with noticeable genotype-dependent response in all tested cell lines. The use of 1M DMSO showed non-inhibitory effects to EC regrowth independent of cell line or cryotreatment incubation time. However, after cryopreservation, Cr01 cell line regrowth was 100 % for all cryotreatments incubation times evaluated (30, 60, 120, 240 min), while Cr02 cell line only showed 100 % regrowth in 240 min of cryotreatment. The 100 % cell regrowth obtained in both cell lines indicates that the proposed protocol can be successful applied to A. angustifolia EC cryopreservation. Cell tracking analysis showed a survival and initial proliferation of embryogenic cells, with the first cell regrowth signs after 30 days in culture. TEM analysis revealed a conspicuous cell wall thickening in embryogenic cells after cryotreatment and after thawing, which may be related to osmotic stress response caused by the cryopreservation process. An increased heterochromatin presence was also observed in cryotreated or after thawing cells, may possibly be acting as a cell defense mechanism, decreasing the DNA vulnerability to cleavage and preserving the cell integrity.

     

Knockdown of differentiation antagonizing non-protein coding RNA exerts anti-tumor effect by up-regulating miR-214 in endometrial carcinoma

Differentiation antagonizing non-protein coding RNA (DANCR) is a valuable long noncoding RNA (lncRNA) that involves in the progress of various cancers. However, the functions of DANCR in endometrial carcinoma (EC) have not been validated. In the present study, we aimed to evaluate the roles of DANCR in EC and explore the underlying mechanism. Expression patterns of DANCR in EC specimens and normal control specimens were determined using qRT-PCR. DANCR was knocked down in EC cell lines (AN3CA and HEC-1B) through transfection with small interfering RNA (siRNA) targeting DANCR (si-DANCR). Cell proliferation was examined using the cell counting kit-8 (CCK-8) assay. Cell apoptosis was measured by flow cytometry. Online software starBase was used to predict the target gene of DANCR. Luciferase reporter assay was carried out to confirm the association between DANCR and the predicted target microRNA (miRNA). DANCR expression was up-regulated in EC tissues as compared to the normal control tissues. Knockdown of DANCR in AN3CA and HEC-1B cells markedly suppressed cell proliferation and induced cell apoptosis. miR-214 was found to be a target miRNA of DANCR and its expression was significantly decreased in EC tissues. Suppression of miR-214 abolished the effects of si-DANCR on cell proliferation and apoptosis in AN3CA and HEC-1B cells. DANCR played an important role in promoting tumorigenesis of EC via sponging miR-214. DANCR might serve as a therapeutic target for the treatment of EC.