Distinct properties of receptors for Dolichos biflorus agglutinin (DBA) isolated from small intestine of adult mice and endoderm cells of early embryos and teratocarcinomas

Receptors for Dolichos biflorus agglutinin are only expressed in severely restricted cell populations of the mouse. The receptors were isolated from mouse embryos, teratocarcinoma cells, and the small intestine of adult mice. Upon SDS-polyacrylamide gel electrophoresis, all of the receptor preparations migrated as distinct glycoprotein bands; the apparent molecular weights were more than 150 kilodaltons in all cases. The sizes of the carbohydrate moieties determined by gel filtration after alkaline NaBH4 treatment appeared to correlate with the status of cell differentiation. Thus, as has previously been reported, the receptors from teratocarcinoma OTT6050 and embryonal carcinoma cells (F9 and N4-1) contained large amounts of high-molecular-weight carbohydrates eluted near the excluded volume of a Sephadex-G-50 column. The receptors from 6.5-day embryos also contained high-molecular-weight carbohydrates, whose average molecular weight was lower than those obtained from OTT6050, F9, or N4-1. The receptors from PYS-2 parietal endoderm cells, END-C-2 visceral endoderm cells, and the small intestine did not contain significant amounts of the large carbohydrates. These results illustrate the complex nature of the cell-surface changes accompanying cell differentiation.     

Changes in cell surface proteins during differentiation of mouse embryonal carcinoma cells

The cell surface proteins of teratocarcinoma-derived embryonal carcinoma cells (ECC), of parietal endoderm (Pys-2 and F9-AC cl 9), and of fibroblasts (OTT6050f) were radioiodinated by a lactoperoxidase method and analyzed by two-dimensional gel electrophoresis. The combined electrophoretic profiles of proteins from a number of ECC lines allowed the determination of eight ECC-unique polypeptides. Parietal endoderm and fibroblast expressed their own unique polypeptides. The two parietal endoderm-specific polypeptides are identical to the subunits of laminin. Retinoic acid-induced differentiation of one ECC line (F9) resulted in the disappearance of polypeptides specific for ECC and the appearance of those specific for the parietal endoderm.     

A heparin binding protein whose expression increases during differentiation of embryonal carcinoma cells to parietal endoderm cells: cDNA cloning and sequence analysis

A cDNA clone isolated from a lambda gt11 expression library of teratocarcinoma OTT6050 specifies for a glycoprotein with a molecular weight of about 44,000. The new glycoprotein was termed heparin binding protein-44 (HBP-44), since it was absorbed to a heparin-agarose column and was eluted from it by a buffer containing 1.5 M NaCl. HBP-44 mRNA was intensely expressed in PYS-2 parietal endoderm cells and in the kidney, and the RNA level increased about 10-fold during differentiation of F9 embryonal carcinoma cells to parietal endoderm cells. From the cDNA sequence, HBP-44 was concluded to be rich in charged amino acids, and large segments of the protein appeared to form alpha-helixes. The protein was considered to be anchored to the membrane by a cluster of hydrophobic amino acids present in the N-terminal region. Indeed, the N-terminal sequence of HBP-44 was homologous to asialoglycoprotein receptor, which is anchored to the membrane by the N-terminal region. Furthermore, a portion of the N-terminal region of HBP-44 was homologous to the leucine zipper domain. Except for the N-terminal region, HBP-44 had over-all homology with structural proteins such as myosin heavy chain. We propose that HBP-44 is extruded from plasma membranes and interacts with heparin and related molecules and that it is involved in the interactions of plasma membranes with basement membranes.     

High molecular weight extracellular proteins synthesized by endoderm cells derived from mouse teratocarcinoma cells and normal extraembryonic membranes

Rabbit antiserum raised against teratocarcinoma embryoid bodies reacts with two extracellular, collagenase-resistant glycoproteins, PYS A and B, with molecular weights of approximately 350,000 and 220,000 daltons. The 220,000-dalton protein is distinguishable from fibronectin. The two proteins are synthesized and secreted into the medium in large amounts by the teratocarcinoma-derived parietal endoderm line PYS-1, and by normal parietal endoderm cells from the 10.5-day embryo. There was no detectable synthesis of PYS A and B by normal visceral endoderm cells isolated from the 10.5-day embryo, and only trace amounts of PYS A were synthesized by the teratocarcinoma-derived visceral endoderm line PSA5E and by mesodermal cells isolated from the visceral yolk sac. The two proteins therefore seem to be good biochemical markers for distinguishing parietal from visceral endoderm cells. Synthesis and secretion of PYS A and B could not be detected in undifferentiated embryonal carcinoma cells or in endoderm cells derived from them in the presence of retinoic acid.     

Differentiation-dependent production of a platelet-derived growth factor-like mitoattractant by endoderm cells derived from embryonal carcinoma cells

Retinoic acid-induced differentiation of F9 embryonal carcinoma cells to endoderm provokes the secretion of a protein factor that acts as both a chemoattractant and mitogen for smooth muscle cells. Undifferentiated F9 cells and PSA-5E (visceral endodermlike) cells produced little of this factor. However, PYS-2 (parietal endodermlike) and Dif 5 endoderm cells were found to produce significant amounts of endoderm-derived mitoattractant (EDM) activity. The activity secreted by the Dif 5 cells was partially purified using gel filtration chromatography using chemotaxis and mitogenic assays as markers for biological activity. The partially purified activity competes with [125I]iodo-platelet-derived growth factor (PDGF) for binding to target cells, and the biological activity is neutralized with anti-PDGF IgG, suggesting shared domains in the two molecules. However, the factor appears to be different from PDGF, based on its thermal stability, molecular weight, and charge. The differentiated endoderm cells including retinoic acid (RA)-treated F9, Dif 5, PSA-5E, and PYS-2 cells also exhibit specific [125I]iodo-PDGF binding, and the PSA-5E cells respond to PDGF as a chemoattractant. Conceivably, such a PDGF-like factor may contribute to the regulation of cell growth and migration during the early stages of embryogenesis.     

The epitope of mouse embryonic antigen(s) recognized by monoclonal antibody TEC-02 is a carbohydrate carried by high-molecular-weight glycoconjugates

The expression and properties of mouse embryonic antigens, recognized by monoclonal antibody TEC-02, were analyzed in teratocarcinoma-derived cell lines. TEC-2 antigens were found in the majority of the parietal endoderm cells PYS-2 and in a fraction of cultured embryonal carcinoma cells but not in other cell lines tested. During the course of retinoic acid-induced differentiation of embryonal carcinoma cells F9, the expression of TEC-2 was transiently increased. Immunolabeling of extracts from F9 and PYS-2 cells separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed that TEC-2 antigens are polydisperse glycoconjugates of high molecular weight (mostly greater than 100,000). The TEC-2 epitope was shown to be carbohydrate which in F9 cells might be attached to the same carrier as another developmentally regulated carbohydrate epitope TEC-1. The TEC-2 antigens, isolated by indirect immunoprecipitation, were degraded by extensive pronase digestion or mild alkaline treatment to mostly large products. Immunostaining of glycolipid standards suggested that TEC-2 epitope involves the GalNAc beta 1----4Gal beta 1----4R sequence. Combined data indicate that TEC-2 is a new developmentally regulated carbohydrate epitope carried in embryonal carcinoma cells predominantly on glycoprotein-bound large carbohydrates.     

Production of insulin-like growth factor-II (MSA) by endoderm-like cells derived from embryonal carcinoma cells: possible mediator of embryonic cell growth

The present study was carried out to determine if an insulin-like growth factor (IGF) type activity might be produced by embryonal carcinoma-derived cells. The cell line used to condition growth medium for the isolation of secreted growth factors was a newly established Dif 5 cell type. Dif 5 cells are a differentiated endoderm-like cell type derived from F9 embryonal carcinoma cells (which possess properties similar to mouse embryonic stem cells) following extensive exposure to retinoic acid. When growth medium conditioned by Dif 5 cells is chromatographed on Sephadex G-75 in 1 M acetic acid two peaks of activity are observed which compete for specific [125I]iodo multiplication stimulating activity (MSA) binding to PYS cells. MSA is the rat homologue of human IGF-II. The high molecular weight fraction (Mr approximately 60K) apparently corresponds to IGF-binding protein as determined by its ability to bind [125I]iodo-MSA. The low molecular weight fraction (Mr approximately 8K) is biologically active as this fraction stimulates [3H]thymidine incorporation into serum-starved chick embryo fibroblasts. Radioimmunoassay data indicate that the IGF-like activity produced by Dif 5 cells is more closely related to IGF-II than to IGF-I. Undifferentiated embryonal carcinoma stem cell lines (F9, Nulli, and PCC4) produced little of this MSA-like activity, while PYS-2 (parietal endoderm-like) cells produced about 16 ng MSA/10(6) cells/24 hr as determined by radioimmunoassay. Dif 5 and PSA-5E (visceral endoderm-like) cells, are found to secrete significant amounts of MSA into the growth medium (30-50 ng MSA/10(6) cells/24 hr). These findings offer further support to a proposal that MSA (IGF-II) produced by endoderm cells, particularly visceral endoderm, may serve as an early embryonic growth factor.     

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.     

Parietal and visceral endoderm differ in their expression of intermediate filaments

Two layers of extra-embryonic endoderm, viz. the parietal endoderm (PE) and the visceral endoderm (VE), arise in the mouse embryo shortly after implantation. Both cell populations apparently originate from the primitive endoderm of the blastocyst. While the endoderm differentiation has been studied both in the embryo and in the embryonal carcinoma model system, the investigation has been hampered by the paucity of unequivocal markers of differentiation, especially in the case of the PE. Here we show that the PE and VE of mouse conceptuses differ in their expression of intermediate filaments: while both cell types contain cytokeratin, expression of vimentin was only revealed in the cells of the PE. The association between the differentiation of PE and the appearance of vimentin filaments is discussed.     

Actin cytoskeleton of extraembryonic endoderm and teratocarcinoma-derived endoderm cells

Distinct F-actin- and myosin-containing stress fibers were observed in situ in many endoderm cells of parietal yolk sacs from 11-day mouse embryos. In visceral endoderm (VE) such fibers were not seen, and F-actin was concentrated in the cell periphery. Correspondingly, in electron microscopy ventral cell membrane-associated bundles of microfilaments were revealed in the periphery of parietal endoderm (PE) cells but not in VE cells. Both PE and VE cells formed stress fibers in primary cultures. Undifferentiated F9 embryonal carcinoma cells formed only short actin spikes and fibrils irrespective of growth substratum. In PE-like derivatives of F9 cells, on the other hand, distribution of F-actin was markedly affected by the growth substratum: They formed distinct stress fibers when plated on fibronectin but did not when plated on gelatin. Similarly, in teratocarcinoma-derived PE cells (PYS-2) adhesion to fibronectin induced the formation of distinct bundles of F-actin and plaques of vinculin. The results suggest that the susceptibility of teratocarcinoma cell actin cytoskeleton to the influence of molecular composition of surrounding matrix is developmentally regulated. On the other hand, the reason for the presence of stress fibers in PE cells and for their absence in VE cells is unclear.     

Vitronectin production by human yolk sac carcinoma cells resembling parietal endoderm

Normal mesenchymal cells, normal epithelial cells and many transformed epithelial cells require serum attachment factors and extracellular matrix proteins for growth and differentiation in vitro, and recent evidence strongly supports a role for extracellular matrix molecules in the regulation of cell movement in vivo during early embryogenesis. We previously described the isolation and characterization of cell lines representative of three types of stem cells most commonly found in human adult testicular teratomas, namely embryonal carcinoma cells, yolk sac carcinoma cells resembling visceral endoderm and yolk sac carcinoma cells resembling parietal endoderm (endodermal sinus tumour cells). Of these three cell types, only endodermal sinus tumour cells, which show particularly malignant behaviour in vivo, have no serum requirement for attachment and growth in vitro. Supernatants from endodermal sinus tumour cells support the attachment of embryonal carcinoma cells in serum-free medium. We demonstrate here that endodermal sinus tumour cells, but not other cell types isolated from testicular teratomas, secrete the serum attachment protein, vitronectin (also known as serum-spreading factor, S-protein or epibolin), as well as fibronectin, laminin and type IV collagen, into serum-free medium. Purified vitronectin from medium conditioned by endodermal sinus tumour cells supported both attachment and spreading of embryonal carcinoma cells in vitro, whereas cells attached but did not spread properly on surfaces coated with fibronectin or laminin. Peptides containing the RGD cell recognition sequence common to many attachment proteins blocked attachment of endodermal sinus tumour cells to untreated tissue-culture plastic in serum-free medium. The results suggest a possible role for vitronectin in regulating cell motility and growth in early development, and in the invasion and spread of teratomas in vivo.     

Embryonal carcinoma cells adhere preferentially to fibronectin and laminin but their endodermal differentiation leads to a reduced adherence to laminin

F9 and PC13 embryonal carcinoma (EC) cells adhered rapidly to growth substrata coated with fibronectin or laminin. When F9 cells were induced to differentiate into visceral or parietal endoderm-like cells, their ability to adhere to laminin diminished, but their adherence to fibronectin remained unchanged. Correspondingly, permanently differentiated teratocarcinoma-derived endoderm cells (PYS-2 and PSA-5e) adhered markedly less efficiently to laminin than to fibronectin. F9 cells adhered to proteolytic fibronectin fragments containing the cell-binding site but not to fragments containing gelatin- or heparin-binding sites. They also adhered slowly to gelatin, but this adhesion was completely blocked by cycloheximide. The results show that the teratocarcinoma stem cells may have specific mechanisms mediating adhesion to fibronectin and laminin and that endodermal differentiation leads to a reduction in their capacity to adhere to laminin but not to fibronectin.     

Establishment and characterization of a parietal endoderm-like cell line derived from Engelbreth-Holm-Swarm tumor (EHSPEL), a possible resource for an engineered basement membrane matrix.

Engelbreth-Holm-Swarm (EHS) tumor produces large amounts of basement membrane (BM) components, which are widely used as cell culture substrates mimicking BM functions. EHS tumor arose spontaneously in an ST/Eh strain mouse and has been propagated by transplantation. In the present study, we established a cell line, EHSPEL (EHS Parietal Endoderm-Like), which can be cultured ex vivo and preserves the capacity to form tumors in vivo. EHSPEL cells secreted large amounts of laminin-1 into the medium and deposited BM components onto dishes. To further characterize EHSPEL cells, their gene expression profile was compared to those of parietal endoderm cells from Reichert's membrane at embryonic day 13.5, differentiated F9 embryonal carcinoma cells, and PYS-2 parietal endoderm cells. These analyses outlined not only common features of parietal endoderm-like cells that underlie the efficient production of BM components, but also germline cell-like features of EHSPEL cells, at least some of which may play crucial roles in their capacity to form tumors that accumulate abundant BM components in vivo. Karyotyping of EHSPEL cells using chromosome painting probes showed a large number of interchromosomal rearrangements and partial chromosome hyperploidy. Exogenous introduction of a human laminin-alpha(4)-EGFP fusion protein into EHSPEL cells resulted in the production and deposition of human-mouse-hybrid laminin-8. This strategy should be applicable for creating efficient systems to produce chimeric laminins as well as BM-like gels with modified biological activity.     

Collagen synthesis in mouse embryonal carcinoma cells: effect of retinoic acid

In five lines of mouse embryonal carcinoma cells, PCC3/A1, PCC4, PCC4/Aza-R1, and F9, collagen synthesis was examined by immunofluorescence reaction using specific antibodies directed against collagen. All the embryonal carcinoma cell lines showed type IV collagen, and PCC7-S/Aza-R1 revealed the additional presence of type III collagen. When the F9 and PCC3/A1 EC cells were treated with retinoic acid and dibutyryl-cAMP, they differentiated into morphologically different cellular types. These cellular types showed new types of collagen. Thus, in treated F9 cells, type I, type III, and type V collagen were detected and in treated PCC3/A1 cells, type III and type V collagen were detected. In two established cellular strains, PYS-2 corresponding to parietal endoderm and 3TDM-1 corresponding to trophoblastoma, collagen was identified by immunological reaction and electrophoretic mobility. The trophoblastoma cell line was characterized by the production of type I, type III, and type IV collagen, whereas endodermal PYS-2 revealed type IV collagen.     

Undifferentiated F9 embryonal carcinoma cells produce a short-chain collagen molecule.

The undifferentiated F9 embryonal carcinoma cells produce a unique collagen that decreases in amount during retinoic acid-induced differentiation of F9 cells into basement-membrane parietal endoderm. A bacterial-collagenase-sensitive protein of approx. 60,000 Da was resolved on polyacrylamide-gel electrophoresis. After pepsin digestion, two pepsin-resistant fragments containing hydroxyproline were demonstrated, suggesting that a portion of the molecule has a stable triple helix. The mRNA from the undifferentiated F9 cells translates a collagenase-sensitive protein with a molecular mass consistent with the 60,000 Da collagenous protein produced by undifferentiated F8 cells.