Establishment and characterization of a human malignant fibrous histiocytoma cell line (K-MFH-1)]

We established and characterized a cell line (K-MFH-1) of human malignant fibrous histiocytoma in vitro and in nude mice. The cells have been kept in culture for nearly 4 years in 121 subcultures in vitro and transferred serially in nude mice in 10 generations. The original tumor histology was epithelioid, angiomatoid variant of MFH, but cells in culture showed a variety of morphology. Chromosomal study disclosed that this tumor was monoclonal in origin. Electron microscopic study revealed that cells had some epithelial characteristics as well as histiofibroblastic features. Tumor cell morphology gradually shifted from epithelioid to myxomatous fibroblastic forms after serial transplantations in nude mice. Some tumors showed an extensive vascular proliferation like angioma suggesting that tumor cells have released angiogenic factors.     

Basement membrane components secreted by mouse yolk sac carcinoma cell lines

Three new cell lines (NE, ME, LRD) were cloned from mouse-embryo-derived teratocarcinomas and characterized on the basis of developmental, ultrastructural, and cytochemical criteria as nullipotent embryonal carcinoma (EC), pure parietal yolk sac (PYS) carcinoma and mixed parieto-visceral yolk sac carcinoma respectively. Cell lines NE and ME were composed of a monomorphous cell population; however, the morphology of ME was growth-medium-dependent. LRD was composed of a heterogeneous cell population and formed embryoid bodies. NE secreted soluble laminin, osteonectin, entactin and fibronectin but did not form visible pericellular matrix. ME formed pericellular matrix which was composed of laminin and entactin, but did not contain fibronectin. The LRD cells formed pericellular matrix which was composed of laminin, entactin and fibronectin. Whereas laminin from ME and LRD reacted with polyclonal antibodies and a monoclonal antibody to parietal yolk sac laminin, the laminin from NE cells was unreactive with the monoclonal antibody. Osteonectin was found in the supernatant of LRD and ME, but could not be demonstrated immunohistochemically in the extracellular matrix. We conclude that some extracellular matrix components, such as laminin and fibronectin, are produced not only by yolk sac carcinoma cells but by nullipotent EC as well, although the latter do not assemble them into extracellular matrix. Laminin produced by EC is immunochemically different from laminin secreted by yolk sac carcinoma. The extracellular matrix produced by mixed parieto-visceral yolk sac carcinoma is different from the matrix laid down by the pure PYS in that the latter does not contain fibronectin. The lack of osteonectin in the extracellular matrix of yolk sac carcinoma cells indicates that not all polypeptides secreted by these cell lines are incorporated into the extracellular matrix. The new cell lines described in this paper differ with regard to their capacity to form extracellular matrix and secrete its various components. Hence they could be used for further studies of basement membrane assembly in vitro.     

Hedgehog is required for murine yolk sac angiogenesis.

Blood islands, the precursors of yolk sac blood vessels, contain primitive erythrocytes surrounded by a layer of endothelial cells. These structures differentiate from extra-embryonic mesodermal cells that underlie the visceral endoderm. Our previous studies have shown that Indian hedgehog (Ihh) is expressed in the visceral endoderm both in the visceral yolk sac in vivo and in embryonic stem (ES) cell-derived embryoid bodies. Differentiating embryoid bodies form blood islands, providing an in vitro model for studying vasculogenesis and hematopoiesis. A role for Ihh in yolk sac function is suggested by the observation that roughly 50% of Ihh(-/-) mice die at mid-gestation, potentially owing to vascular defects in the yolk sac. To address the nature of the possible vascular defects, we have examined the ability of ES cells deficient for Ihh or smoothened (Smo), which encodes a receptor component essential for all hedgehog signaling, to form blood islands in vitro. Embryoid bodies derived from these cell lines are unable to form blood islands, and express reduced levels of both PECAM1, an endothelial cell marker, and alpha-SMA, a vascular smooth muscle marker. RT-PCR analysis in the Ihh(-/-) lines shows a substantial decrease in the expression of Flk1 and Tal1, markers for the hemangioblast, the precursor of both blood and endothelial cells, as well as Flt1, an angiogenesis marker. To extend these observations, we have examined the phenotypes of embryo yolk sacs deficient for Ihh or SMO: Whereas Ihh(-/-) yolk sacs can form blood vessels, the vessels are fewer in number and smaller, perhaps owing to their inability to undergo vascular remodeling. Smo(-/-) yolk sacs arrest at an earlier stage: the endothelial tubes are packed with hematopoietic cells, and fail to undergo even the limited vascular remodeling observed in the Ihh(-/-) yolk sacs. Our study supports a role for hedgehog signaling in yolk sac angiogenesis.     

Origin of laminin in the extracellular matrix of human tumor xenografts in nude mice

Monoclonal antibodies reacting exclusively with laminin of human origin and a polyclonal antibody reacting with both murine and human laminin were used to immunohistochemically study the extracellular matrix of four human tumors grown as xenografts in nude mice: a lung carcinoma and a yolk sac carcinoma because they produced cell associated laminin in vitro; and two hepatocellular carcinomas which did not produce cell associated laminin in vitro. The extracellular matrix of the xenografts of the lung carcinoma and the yolk sac carcinoma contained laminin of both human and murine origin. Xenografts of liver carcinoma contained only laminin of mouse origin. This shows that the malignant cells capable of laminin production in vitro contribute this glycoprotein to the extracellular matrix of the solid tumor formed by them in vivo.     

Vasculogenesis and angiogenesis in embryonic-stem-cell-derived embryoid bodies

Embryonic stem cells (ESC) have been established previously from the inner cell mass cells of mouse blastocysts. In suspension culture, they spontaneously differentiate to blood-island-containing cystic embryoid bodies (CEB). The development of blood vessels from in situ differentiating endothelial cells of blood islands, a process which we call vasculogenesis, was induced by injecting ESC into the peritoneal cavity of syngeneic mice. In the peritoneum, fusion of blood islands and formation of an in vivo-like primary capillary plexus occurred. Transplantation of ESC and ESC-derived complex and cystic embryoid bodies (ESC-CEB) onto the quail chorioallantoic membrane (CAM) induced an angiogenic response, which was directed by nonyolk sac endoderm structures. Neither yolk sac endoderm from ESC-CEB nor normal mouse yolk sac tissue induced angiogenesis on the quail CAM. Extracts from ESC-CEB stimulated the proliferation of capillary endothelial cells in vitro. Mitogenic activity increase during in vitro culture and differentiation of ESC. Almost all growth factor activity was associated with the cells. The ESC-CEB derived endothelial cell growth factor bound to heparin-sepharose. The identification of acidic fibroblast growth factor (FGF)in heparin-sepharose-purified material was accomplished by immunoblot experiments involving antibodies against acidic and basic FGF. We conclude that vasculogenesis, the development of blood vessels from in situ differentiating endothelial cells, and angiogenesis, the sprouting of capillaries from preexisting vessels are very early events during embryogenesis which can be studied using ESC differentiating in vitro. Our results suggest that vasculogenesis and angiogenesis are differently regulated.     

Characterization of antisera against mouse teratocarcinoma OTT6050: Molecular species recognized on embryoid bodies,preimplantation embryos,and sperm

Antisera raised in rabbits by hyperimmunization with small embryoid bodies of the transplantable teratocarcinoma OTT6050 recognize several distinct antigenic protein species on the surfaces of cells of the immunogen. Some of these antigens were found on the cells of preimplantation mouse embryos, on cells from parietal yolk sac carcinoma, and on mouse sperm. These antigens have been distinguished by polyacrylamide electrophoresis of the immune precipitates from detergent extracts of lactoperoxidase-iodinated cells. The intact embryoid bodies from the ascitic form of the OTT6050 teratocarcinoma exhibited five major protein bands (approximate MW 150K, 115K, 82K, 48K, and 12K), one band that ran at the dye front of the gels (R_f ≥1) and one minor band (approximate MW 22K). Two different rabbit antisera recognized an essentially identical pattern of antigens which, however, varied on the different cell types tested. Antisera were also elicited in syngeneic male mice using glutaraldehyde-fixed or irradiated OTT6050 embryoid bodies. The isoantisera had very poor titers in comparison to the absorbed xenoantisera, as assessed by complement-mediated cytotoxic activity against the immunizing cell types. Complement-mediated cytotoxicity could also be demonstrated using parietal yolk sac carcinoma cells, preimplantation mouse embryos from all cleavage stages, blastocysts, and immunosurgically isolated inner cell masses, as targets. The complexity of the antisera generated by intact embryoid bodies described here indicates that these structures bear multiple antigenic specificities not present on adult somatic cells, some of which are stage-specific embryonic polypeptides.     

Cytoskeleton of human embryonal carcinoma cells

Monoclonal antibodies to cytoskeletal proteins were used to study the intermediate filament proteins of human embryonal carcinoma (EC) cell lines, tumors produced in nude mice from these cell lines, and surgically removed testicular germ cell tumors. It was found that all cells of tumor lines 2102Ep, 1156 and Tera 1 react with antibodies to low molecular weight keratin proteins. By immunoblotting of SDS gels it was found that these lines expressed three keratin polypeptides (40K, 45K and 52K). Clonal line NTera-2 derived from Tera-2 differed from the above listed cell lines in that only 10% of the cells expressed the 40K keratin polypeptide. Upon treatment with retinoic acid 70% of NTera-2 cells became reactive with the antibody to the 40K keratin polypeptide. All cell lines contained a small population of vimentin-positive cells. The number of vimentin-positive cells could be increased by retinoic acid treatment of NTera-2 cells or by seeding the 2102Ep cells at low cell density. Neurofilament-positive cells could be induced in the cell line NTera-2 by retinoic acid treatment. Tumors produced from NTera-2 cells injected into nude mice contained cells reacting with antibodies to keratin, vimentin, neurofilament proteins and desmin. Keratin polypeptides were immunohistochemically demonstrated in embryonal carcinoma, yolk sac carcinoma and trophoblastic components of solid human germ cell tumors. Atypical intratubular cells ('carcinoma in situ') also reacted with antibodies to keratin.     

Transforming growth factor-beta signalling in extraembryonic mesoderm is required for yolk sac vasculogenesis in mice.

We have analysed the function of transforming growth factor beta (TGF-beta) in yolk sac development in mice by generating somatic chimaeras in which the extraembryonic mesoderm, which gives rise to the endothelial and haematopoietic cells of the yolk sac vasculature, is derived from embryonic stem (ES) cells. The ES cells were stably transfected and express either the full-length type II binding receptor or a kinase-deficient mutant of this receptor. Examination of yolk sacs from chimaeras between E8.5 and 9.5, and analysis of marker expression in embryoid bodies from these mutant ES cell lines in prolonged suspension culture demonstrated that (1) a major function of TGF-beta in yolk sac mesoderm is to regulate production and deposition of fibronectin in the extracellular matrix that maintains yolk sac integrity, (2) TGF-beta signalling is not required for differentiation of extraembryonic mesoderm into endothelial cells but is necessary for their subsequent organisation into robust vessels, and (3) TGF-beta signalling must be tightly regulated for the differentiation of primitive haematopoietic cells to take place normally. Together, these results show that defective TGF-beta signalling in the extraembryonic mesoderm alone is sufficient to account for the extraembryonic phenotype reported previously in TGF-beta1(-/-) mice (Dickson, M. C., Martin, J. S., Cousins, F. M., Kulkarni, A. B., Karlsson, S. and Akhurst, R. J. (1995) Development 121, 1845-1854).     

Indian hedgehog signaling in extraembryonic endoderm and ectoderm differentiation in ES embryoid bodies

We previously demonstrated that a member of the Hedgehog gene family, Indian hedgehog (Ihh), is expressed in the visceral endoderm of EC and ES cell embryoid bodies and mouse embryos. Overexpression studies suggested that Ihh was involved in visceral endoderm differentiation. We now provide evidence for a Hh response in the embryoid body core and in the mesothelial layer of the visceral yolk sac. We also demonstrate that treatment of ES embryoid bodies with the Hh antagonists cAMP and forskolin results in downregulation of the Hh response and altered embryoid body differentiation. The outer endoderm layer undergoes a transition to parietal endoderm while formation of an embryonic ectoderm layer surrounding a cavity is inhibited. These treatments also result in a decrease in the expression of markers for the mesoderm derivatives, blood and endothelial cells. We present a model to explain how Ihh and BMP signaling may regulate extraembryonic endoderm and embryonic ectoderm differentiation.     

Establishment and characterization of a human ureteral cancer cell line producing carbohydrate antigen 19-9 and carcinoembryonic antigen

We established a new cell line (FU-UrC-1) derived from a human primary ureteral carcinoma xenografted in a nude mouse. This cell line exhibited epithelial characteristics and formed clusters in monolayer cultures. The cells were subcultured in vitro for more than 20 passages and had a doubling time of 53 hours. The modal number of chromosomes was 66. The cell line, which was xenografted again to nude mice, produced tumors essentially identical to the original tumor. Furthermore, the cultured cells expressed carbohydrate antigen 19-9 (CA19-9) and carcinoembryonic antigen (CEA) that were secreted in the culture media. This cell line appears to provide a useful system for studying ureteral carcinoma in vivo and in vitro.     

BPOZ基因纯合缺失ES细胞系的建立及其生长和分化研究

研究BPOZ基因缺失对细胞生长和分化的影响.以高浓度的G418筛选BPOZ基因杂合缺失型ES细胞,PCR鉴定抗高浓度G418细胞克隆基因型;半定量RTPCR分析3种基因型ES细胞BPOZ基因的表达情况,分析3种基因型ES细胞Oct34基因的表达以明确ES细胞分化状态.利用3种基因型ES细胞进行细胞生长曲线和3H胸嘧啶核苷参入实验比较其生长速度和增殖能力.以裸鼠荷瘤实验和类胚体形成实验比较BPOZ基因纯合缺失型ES细胞与野生型ES细胞生长分化能力.结果表明,筛选获得两个BPOZ基因剔除的纯合ES细胞克隆;筛选得到的纯合ES细胞中BPOZ基因表达完全缺失,细胞处未分化状态.与野生型ES细胞相比,BPOZ基因纯合缺失型ES细胞生长受抑,增殖能力减弱.BPOZ基因纯合缺失型ES细胞可分化形成类胚体和具备来自3个不同胚层的细胞和组织的畸胎瘤.BPOZ基因剔除使ES细胞生长受抑,对ES细胞分化发育没有明显影响.     

Derivation of pluripotential embryonic stem cells from murine primordial germ cells in culture.

Steel factor (SF) and LIF (leukemia inhibitory factor) synergistically promote the proliferation and survival of mouse primordial germ cells (PGCs), but only for a limited time period in culture. We show here that addition of bFGF to cultures in the presence of membrane-associated SF and LIF enhances the growth of PGCs and allows their continued proliferation beyond the time when they normally stop dividing in vivo. They form colonies of densely packed, alkaline phosphatase-positive, SSEA-1-positive cells resembling undifferentiated embryonic stem (ES) cells in morphology. These cultures can be maintained on feeder layers for at least 20 passages, and under appropriate conditions give rise to embryoid bodies and to multiple differentiated cell phenotypes in monolayer culture and in tumors in nude mice. PGC-derived ES cells can also contribute to chimeras when injected into host blastocysts. The long-term culture of PGCs and their reprogramming to pluripotential ES cells has important implications for germ cell biology and the induction of teratocarcinomas.     

Human pancreatic adenocarcinoma: In vitro and in vivo morphology of a new tumor line established from ascites

Summary A human pancreatic tumor cell line has been established from the ascites of a patient with histopathologically confirmed adenocarcinoma of the head of the pancreas and maintained for more than 12 months in the laboratory. Epitheloid tumor cell colonies, which resulted from primary tissue cultures of the ascitic cell component, were mechanically isolated by needle micromanipulation. Tumorigenicity was proven in athymic nude mice. Morphologically the pancreatic tumor epithelial cells grew to confluency with moderately tight adhesion to the culture plastic surface and with free-floating cells in the medium. Upon re-establishment of the tumoral xenograft in tissue culture, the epithelial cells retained their original morphology. Histologically the tumor grown in nude mice exhibited prototypic characteristics of the primary adenocarcinoma in the patient, producing abundant mucin and displaying a broad spectrum of glandular differentiation, which ranged from well to poorly differentiated adenocarcinomas with occasionally localized lymphocytic infiltrations. Furthermore, the tumor expressed carcinoembryonic antigen and human pancreas cancer associated antigen. This tumor line, designated AsPC-1, has been cultured for at least 10 passages in vitro and 3 in vivo. It represents a new model for human pancreatic cancer. This work was supported in part by Research Grant CA-18410 awarded by the National Cancer Institute through the National Pancreatic Cancer Project.     

Effect of human lymphoblastoid interferon on human yolk sac tumors in nude mice

The effect of human lymphoblastoid interferon on the growth of human tumors heterotransplanted into nude mice was examined. The human tumor lines examined, named YST-1, YST-2 and YST-3, were derived from yolk sac tumors of the ovary. Daily intraperioneal injection of 3 X 10(4) U interferon per mouse for 14 days did not inhibit the growth of any of these three human tumor lines. A close correlation was observed between the tumor volume and the level of alpha-fetoprotein in sera of mice bearing the YST-1 tumor (r = 0.55) or YST-2 tumor (r = 0.70). No histological differences were detected between tumor cells of interferon-treated and control mice. Tumor-bearing mice treated with interferon showed no marked weight loss.     

Isolation and characterization of a multipotent clone of human embryonal carcinoma cells

Histopathological studies suggest that the stem cells of human teratomas may be classified into two major categories: nullipotent stem cells, and multipotent stem cells, capable both of self-renewal and differentiation into a wide range of somatic and extraembryonic cell types. We have isolated a multipotent stem cell clone from the human teratoma cell line GCT 27, and compared its properties to a nullipotent clone derived from the same strain. The multipotent clone GCT 27 X-1 gave rise to colonies of mixed cell morphology in vitro. Analysis of cell surface, cytostructural and extracellular matrix markers in GCT 27 X-1 cells showed that the stem cells of this line were very similar in phenotype to nullipotent cells. The two cell clones were predominantly hypotriploid, and contained several marker chromosomes in common. GCT 27 X-1 was feeder-cell-dependent for continuous growth in vitro; removal of the feeder layer resulted in differentiation of the stem cells into a variety of cell types, some with characteristics of extraembryonic endoderm, others showing neuronal properties. When transplanted into nude mice, GCT 27 X-1 cells gave rise to teratocarcinomas containing embryonal carcinoma stem cells, and many other cell types: yolk sac carcinoma cells; cells producing alphafetoprotein or human chorionic gonadotrophin; glandular, columnar, cuboidal, and squamous epithelium; primitive mesenchyme and cartilage; neuroectodermal cells. Nullipotent GCT 27 C-1 cells could form colonies in the absence of feeder layers, but multipotent GCT 27 X-1 cells could not. While a range of known growth factors and related substances failed to substitute for feeder layers in supporting the growth of GCT 27 X-1 stem cells, supernatants from yolk sac carcinoma cell line GCT 44 could partially replace the feeder cell requirement. Thus, the results revealed a basic difference in growth control between these multipotent and nullipotent human embryonal carcinoma cells, and suggested a possible paracrine regulatory pathway between multipotent stem cells and yolk sac carcinoma cells.     

Embryonic stem cell-derived cystic embryoid bodies form vascular channels: an in vitro model of blood vessel development.

Murine embryonic stem cells can differentiate in vitro to form cystic embryoid bodies (CEB) that contain different structures and cell types. The blood islands are one such structure that consist of immature hematopoietic cells surrounded by endothelial cells, the first identifiable vascular cells. CEBs differentiated in vitro developed blood islands initially, and subsequently these blood islands matured to form vascular channels containing hematopoietic cells. Phase contrast microscopy demonstrated the presence of channels in mature CEBs grown in suspension culture, and high resolution light and electron microscopy showed that the cells lining these channels were endothelial cells. The channels appeared less organized than the vasculature of the mature yolk sac. The hematopoietic cells were occasionally seen 'flowing' through the CEB channels, although their numbers were reduced relative to the yolk sac. Analysis of primary CEB cultures showed the presence of cells with two characteristics of endothelial cells: approximately 30% of the cells labelled with fluorescent acetylated low density lipoprotein and a small number of cells were positive for von Willebrand's factor by immunostaining. Thus we conclude that a primitive vasculature forms in CEBs differentiated in vitro, and that not only primary differentiation of endothelial cells but also some aspects of vascular maturation are intrinsic to this cell culture system. CEBs are therefore a useful model for the study of developmental blood vessel formation.     

The characterization of SV40-transformed cell lines derived from mouse teratocarcinoma: growth properties and differentiated characteristics.

Mouse teratocarcinoma cells derived from embryoid bodies of 129SVsl mice were cultured in vitro to permit their differentiation. These cells were then infected with simiam virus 40 (SV40) and 31 cloned cell lines (SVTER) were derived from these cultures. All 31 SVTER cell lines contained the SV40 tumor (T) antigen and grew as permanent lines in culture. Mock-infected embryoid body cultures did not give rise to permanent cell lines. The morphology of each SVTER cell line was distinct and did not change during successive subclonings. The growth properties and tumorigenic potential of all 31 SVTER cell lines were investigated. None of these lines produced tumors in 129SVsl mice. Each cell line was tested for its ability to (1) grow in medium containing 1% serum, (2) plate on cell monolayer, and (3) form clones in methocel suspension. Only three of the SVTER cell lines were transformed with respect to all three of these criteria. Most of these cell lines were minimal transformants. The SVTER cell lines were tested for creatine phospholinase (CPK), an enzyme activity chracteristic of mouse brain and muscle tissue, and the protease, plasminogen activator (PA) which is found in embryoid bodies and several differentiated cell types. Some of the SVTER cell lines contained high levels of CPK, while others had high levels of PA and a third group of cells contained neither enzyme activity. No SVTER cell line was found with high levels of both these enzyme activities. This result suggests that mutually exclusive sets of genes are expressed in these cells as might be expected from the distinct tissue distribution of the two enzyme activities studied. These SVTER cell lines may be useful in reconstructing developmental pathways of differentiating teratomas in vitro.     

Establishment of a New Human Glioblastoma Multiforme Cell Line (WJ1) and Its Partial Characterization

(1) A new human glioblastoma multiforme (GBM) cell line, WJ1, was established from the tissue derived from a 29-year-old patient diagnosed with a grade IV GBM. (2) The WJ1 cell line has been subcultured for more than 80 passages in standard culture media without feeder layer or collagen coatings. (3) GBM cells grow in vitro with distinct morphological appearance. Ultrastructural examination revealed large irregular nuclei and pseudo-inclusion bodies in nuclei. The cytoplasm contained numerous immature organelles and a few glia filaments. Growth kinetic studies demonstrated an approximate population doubling time of 60 h and a colony forming efficiency of 4.04%. The karyotype of the cells was hyperdiploid, with a large subpopulation of polyploid cells. Drug sensitivities of DDP, VP-16, tanshinone IIA of this cell line were assayed. They showed a dose- and time-dependent growth inhibition effect on the cells. (4) Orthotopic transplantation of GBM cells into athymic nude mice induced the formation of solid tumor masses about 6 weeks. The cells obtained from mouse tumor masses when cultivated in vitro had the same morphology and ultrastructure as those of the initial cultures. (5) This cell line may provide a useful model in vitro and in vivo in the cellular and molecular studies as well as in testing novel therapies for human glioblastoma multiforme.