Characterization of a pluripotent stem cell line derived from a mouse embryo

A pluripotent, karyotypically normal, male culture line ESC-BLC 1 of embryonal stem cells was established from delayed mouse blastocysts of strain 129/ter Sv. The cell line was isolated after cultivation of inner cell mass cells on X-irradiated feeder layer of mouse embryonal fibroblasts. The pluripotent status of the cell line was confirmed by in vivo and in vitro differentiation. For in vivo differentiation, cells were injected subcutaneously into syngeneic mice. The resulting tumors contained various tissues, derivatives of all three primary germ layers. In vitro cultivated pluripotent stem cells differentiated into endoderm-like, neuronal-like and tubular structures. Determination of alkaline phosphatase in cell line ESC-BLC 1 yielded a high specific activity; G-banding of metaphases revealed a normal, male karyotype.     

Establishment of a pluripotent embryonal carcinoma cell line not expressing SSEA-1 and ECMA-7 phenotypes

A murine embryonal carcinoma (EC) cell line heterozygous for t0 recessive lethal mutation has been established from an embryo-derived transplantable teratocarcinoma TC1Ph of the genotype (129-T/t0 X C3H/Di)t0/+. The EC cell line, designated EC1Ph, and two cloned sublines, EC1Ph/a and EC1Ph/b, maintain the diploid karyotype (40, XY) and give rise to teratocarcinomas with differentiated derivatives of EC cells after inoculation into syngeneic recipients. The cloned sublines express low or zero amounts of SSEA-1 and ECMA-7 stage-specific antigens. At some passages, the EC1Ph line and the cloned subline EC1Ph/b express a significant quantity of class I H-2 antigens. This unusual EC phenotype resembles that of human teratocarcinoma cell lines.     

Characterization of a stable,anchorage-dependent clone obtained from a spontaneously transformed mouse cell line

Summary A variant nontransformed clone, I21, was selected from the spontaneously transformed mouse fibroblast line, IT22. Selection was done by plating IT22 in methylcellulose and picking single cells after 2 d. Cultures derived from these single cells were selected again and one clone, I21, derived from the second round of selection was characterized extensively. I21 and IT22 have the same plating efficiency (PE) on plastic, but in agarose they differ by 1000-fold. In comparison to IT22, I21 has a normal morphological appearance, a lower saturation density, a higher viability in stationary phase, an increased doubling time, an increased chromosome content, and is unable to form tumors in nude mice. I21 has remained remarkably stable in culture and has not reverted to the transformed phenotype for at least 300 generations in culture. Over 100 clones of I21, expanded to 10⁶ cells, failed to show an increased PE in agarose. Even expansion of the rare colonies of I21 that grow in agarose failed to produce clones similar to IT22. The research was supported by the Medical Research Council and the National Cancer Institute of Canada. R. Godbout was supported by a 1967 Science Scholarship and by an MRC Studentship. B. L. Gallie is a Research Associate of the Ontario Cancer Treatment and Research Foundation.     

A novel extracellular membrane elaborated by a mouse embryonal carcinoma-derived cell line

An extracellular membranous structure is synthesized by an embryonal carcinoma-derived cell line, M1536-B3, in suspension cultures. Analysis of the solubilized membranous structure on polyacrylamide gels in sodium dodecyl sulfate yielded two major classes of glycoproteins with molecular weights of approximately 230,000 and 320,000 respectively. The amino acid composition of the purified membranous structures revealed the absence of both hydroxyproline and hydroxylysine. Carbohydrate analysis demonstrated the presence of fucose, xylose, mannose, galactose, glucose, N-acetylglucosamine, N-acetylgalactosamine, and N-acetylneuraminic acid. These carbohydrates represented approximately 9% of the weight of the membrane. A comparison of the electrophoretic patterns of cells grown on monolayers and in suspension revealed a marked accumulation of the glycoproteins under the latter growth conditions. $\text{D}$-[³H]-glucosamine was incorporated into these two and a third major glycoprotein by cells in suspension culture.     

Establishment and characterization of a pluripotent stem cell line derived from human amniotic membranes and initiation of germ layers in vitro

OBJECTIVES: Pluripotent stem cells are proposed to be used in regenerative therapy and may exist in the human amniotic membrane. The present article is aimed at establishing a pluripotent stem cell line from human placenta. METHODS: HAM-1 (stem cell line derived from human amniotic membranes) was established by the colonial cloning technique using aMEM culture medium containing 10 ng/ml of EGF, 10 ng/ml of hLIF and 10% fetal bovine serum. RESULTS: HAM-1 cells appeared to maintain a normal karyotype indefinitely in vitro and expressed markers characteristic of stem cells from mice and human, namely alkaline phosphatase. Also, these cells contributed to the formation of chimeric mouse embryoid bodies and gave rise to cells of all germ layers in vitro. CONCLUSIONS: This study demonstrates that human amniotic membranes derived stem cells have a wide developmental capability and might be utilized to regenerate different types of cells or tissues for transplantation therapy.     

The morphology and growth of a pluripotent teratocarcinoma cell line and its derivatives in tissue culture

Cultures of the clonally derived pluripotent teratocarcinoma cell line, SIKR, are heterogeneous. They are characterized by the presence of two cell types—the “C cells”, which grow as tight, round colonies on a monolayer of the morphologically distinct “E cells”. In contrast to the C cells, whose proliferation is apparently uninhibited by high cell density, the E cells show density-dependent inhibition of growth. Subclones of SIKR are of two types: they are either similar to the parent culture, in that they contain both C and E cells (CE subclones) and are themselves tumorigenic and pluripotent; or they are composed only of E cells (E-type subclones), which are primarily not tumorigenic, but may become so after spontaneous transformation in vitro. The tumors formed by transformed E cells (E-t cells) are monotypic (“fibroblastic”), consisting of one cell type which is not clearly identifiable, but which is distinctly not embryonal carcinoma.It is concluded that the tumorigenic C cells are the stem cells of this teratocarcinoma line, and that they give rise to nontumorigenic E cells in vitro, but that the reverse does not occur. It is suggested that the C to E transition represents cell determination in vitro. The interest of this cell culture system for both developmental and oncological studies is discussed.     

Structure of bovine papillomavirus type 1 DNA in a transformed mouse cell line

Linearized bovine papillomavirus type 1 (BPV-1) DNA was introduced into mouse C127 cells, where it recircularized and replicated as an intact monomeric, extrachromosomal circular form in the resulting transformants. These cells contained a mixture of complex high molecular weight forms that were converted to a linear form of approximately BPV-1 size upon digestion with an enzyme that cuts once within the BPV-1 genome. Further analysis of one of these cell lines revealed that these high molecular weight forms consisted of two components. One was detected on agarose gels as a diffuse smear of slow-migrating material representing linear forms that were tightly associated with host chromosomes, probably by integration. The second component was composed of discrete-sized oligomeric open and supercoiled extrachromosomal circular forms of up to approximately 48 X 10(3) base-pairs (6 tandemly linked BPV-1 genomes) in size. No catenated (interlocked) forms could be detected.     

Analysis of a nontumorigenic embryonal carcinoma cell line

Embryonal carcinoma (EC) cells have proven to be of particular value in studies of both oncogenesis and mammalian development as well as in evaluating the relationship between these two phenomena. We have infected EC cells with a retrovirus in an effort to obtain by insertional mutagenesis cell lines defective in either differentiative or oncogenic potentials. One such cell line, identified originally by its unique morphological phenotype, is abnormal with respect to both parameters. These cells do not differentiate along typical EC cell lineages, possibly having lost their ability to elaborate endodermal derivatives. They do, however, retain certain cell surface markers characteristic of EC cells and lose these markers after exposure to retinoic acid. Most significantly, they also fail to form tumors in vivo in syngeneic mice, although they grow as well as the parental cells in vitro. Southern blot analysis indicates that this variant cell line has a single viral insert and the original cell was probably hemizygous for the insertion site, suggesting that a single gene may regulate both the tumorigenic and differentiative capacities of the cell.     

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.     

Ultrastructural and biochemical characterization of a cloned mouse keratinocyte cell line

A cloned population of mouse C3H/He keratinocytes was obtained from the 14th passage of an epidermal cell line. A two-step cloning procedure using Petriperm dishes was performed. The cloned population, grown at 34 °C, was subcultured more than 30 times over a one year period. By day 14, three cell layers were formed; the ultrastructural morphology and immunofluorescence characterization of these layers showed numerous tonofilament bundles and well organized desmosome tonofilament structures. They thereby resemble the proliferative compartment of the epidermis. High resolution acrylamide gel electrophoresis of the keratins extracted from the cloned cells showed the presence of many keratin subunits. The tonofilaments extracted from the cell layers, as well as from the supernatant cells, contained a small quantity of high MW keratins (rel. MW 63 000; apparent isoelectric point 5.5–6.2). These results indicate that the cloned keratinocyte cell line had retained a certain maturation capacity in culture.     

Establishment and characterization of a spontaneously immortalized mouse ameloblast-lineage cell line

Tooth development was cooperatively regulated by the epithelial ameloblasts and mesenchymal odontoblasts. Ameloblasts secrete enamel matrix, critical for enamel formation. While there are several reports about establishment of immortalized ameloblast-like cells by introducing viral oncogene, we tried to establish a spontaneously immortalized ameloblast-lineage cell line, maintaining the cell type specific character, including the ability to induce in vitro bio-mineralization. The established cell line (ameloblast-lineage cell; ALC) maintained the expression of several ameloblast specific genes (Amelogenin, Tuftelin, and Enamelin) in long-term culture. They formed calcified nodules after the induction by medium switching from SMEM to DMEM, having high-level alkaline-phosphatase activity. The size and number of calcified nodule formation were enhanced by TGF-beta treatment. Six weeks after sub-cutaneous implantation of ALC to athymic nude mice, we ectopically observed enamel epithelium like structure formation, chondrogenesis, and calcification. These data indicate that ALC is a useful experimental tool to analyze ameloblast character.     

States of developmental commitment of a mouse embryonal carcinoma cell line differentiating along a neural pathway

The embryonal carcinoma cell line PCC7-S-AzaR1 (clone 1009) has been shown to differentiate in the presence of all-trans retinoic acid and dibutyryl cAMP into cells of predominantly neural properties (Paulin, D., H. Jakob, F. Jacob, K. Weber, and M. Osborn. 1982. Differentiation. 22:90-99). By analyzing the marker expression of derivatives in further detail, we characterized the two major cell phenotypes as neuron- and fibroblast-like and the two minor ones as astroglia- and endothelial-like. The stability of developmental commitment of clone 1009 was tested by recloning. The isolated subclones exhibited different patterns of chemically induced derivatives, with some of them (denoted N-clones) producing only a single (neuronal) cell type. As shown by long-term cultures in the absence of retinoic acid, the properties of isolated subclones remained essentially stable. In contrast to the clones producing neuron-like and other derivatives upon induced differentiation, the (exclusively neuronal) derivatives of N-clones detached and died within a few days in culture. If maintained in the presence of other neural cell types, however, their survival was dramatically extended indicating a requirement for specific interactions with other cells of the same tissue. The patterns of derivatives obtained from N-clones depended on the chemical nature of the substrate on which they were grown. Thus, when seeded on laminin-coated surfaces before induced differentiation, N-clones developed not only to neuron-like derivatives but rather to the same four derivatives observed with the original cell pool. These and further results suggest a common cell lineage of the identified phenotypes. The isolated subclones of uninduced cells probably represent different states of commitment within the same developmental pathway. Their stability offers the opportunity to analyze the nature of cellular commitment on the cellular, molecular, and genetic levels. This makes the family of clones derived from PCC7-S-AzaR1 (clone 1009) cells an advantageous in vitro model of mammalian brain early ontogenesis.     

A retrovirus-producing transformed mouse cell line derived from a human breast adenocarcinoma transplanted in a nude mouse

Summary A transplantable tumor was established in NIH/Swiss/Nu mice from tissue derived from a human breast adenocarcinoma metastatic to the brain. Cultivation of dispersed cells from the third transplant generation of the tumor produced a rapidly growing, high-density culture of fibroblastlike cells. Chromosome and isozyme assays showed these cells to be of mouse origin. The cells behaved as an established line from initial culture. Cells of the tissue culture line, designated NM-1, produced rapidly growing fibrohistiocytomas in nude mice. Electron microscopy revealed that the cells produced large numbers of type C virus particles. Serological, biochemical, and infectivity assays indicated that the retrovirus produced by NM-1 cells is an ecotropic, infective, murine retrovirus antigenically related to, but distinguishable from, Gross and Moloney viruses. The virus did not transform mouse fibroblasts. The data support the conclusion that mouse stromal cells within the transplanted human tumor had undergone malignant transformation and induction to virus replication. The role of the virus in the malignant transformation remains to be clarified.