Increased expression of estrogen receptor beta in chemically transformed human breast epithelial cells

Recent molecular cloning of estrogen receptor beta (ERbeta) suggests alternative pathways of estrogen signaling, but little is known concerning the role of ERbeta in the development of human breast cancer. In the present study, expression of ERalpha and ERbeta mRNA was determined in a series of chemically transformed human breast epithelial cells as well as various normal and malignant breast cancer cell lines. We observed a very low level of ERbeta expression in the mortal S130 and the spontaneously immortalized MCF10-F human breast epithelial cell lines. As MCF-10F cells were treated with environmental chemical carcinogens, an elevated level of ERbeta expression was observed in the resultant transformed BP1, D3 and BP1-ras cells. An even higher level of ERbeta expression was detected in the more transformed BP1-E, D3-1 and D3-1-ras cell lines. Therefore, results from our study indicate that expression of ERbeta can be induced in chemical carcinogen-transformed human breast epithelial cells, and the more transformed cells showed higher levels of ERbeta expression, regardless of which chemical carcinogens were initially used for cell transformation. These results suggest that expression of ERbeta may contribute to the initiation and progression of chemical carcinogen-induced neoplastic transformation.     

Enoxaparin increases the incidence of postoperative intracranial hemorrhage when initiated preoperatively for deep venous thrombosis prophylaxis in patients with brain tumors

Previous studies have shown that PKC-alpha protein expression is decreased in sporadic human colon cancers, as well as in colonic tumors of rats induced by chemical carcinogens. To elucidate the potential role of PKC-alpha on several phenotypic characteristics of colon cancer cells, we have transfected cDNAs for PKC-alpha in sense or antisense orientations into CaCo-2 cells, a human colonic adenocarcinoma cell line. Transfected clones were isolated that demonstrated approximately 3-fold increases (sense transfectants) and approximately 95% decreases (antisense transfectants) in PKC-alpha expression with no significant alterations in other PKC isoforms. Transfection of CaCo-2 cells with PKC-alpha in the antisense orientation resulted in enhanced proliferation and decreased differentiation, as well as in a more aggressive transformed phenotype compared with empty vector-transfected control cells. In contrast, cells transfected with PKC-alpha cDNA in the sense orientation demonstrated decreased proliferation, enhanced differentiation, and an attenuated tumor phenotype compared with these control cells. These data show that alterations in the expression of PKC-alpha induce changes in the proliferation, differentiation, and tumorigenicity of CaCo-2 cells. Furthermore, these findings indicate that loss of PKC-alpha expression in sporadic human and chemically induced colonic cancers may confer a relative growth advantage during colonic malignant transformation.     

Invasive tumors derived from xenotransplanted, immortalized human cells after in vivo exposure to chemical carcinogens

Several chemicals that are found in cigarette smoke or diesel oil engine exhausts, such as benzo[a]pyrene (B[a]P) and 1,6-dinitropyrene (DNP) are carcinogenic in experimental animal models. In the present study, we have exposed in vivo the xenotransplanted immortalized human bronchial epithelial cell line BEAS-2B to the ultimate carcinogen of B[a]P, benzo[a]pyrene diolepoxide (BPDE), to DNP or to the benzo[e]pyrene, a less active compound that has tumor-promoting abilities in mouse skin carcinogenesis bioassays. All three compounds were administered using slow-release beeswax pellets. After a 6 month exposure, BPDE produced two tumors in seven transplants, four tumors were seen in 10 transplants treated with DNP and one tumor was observed in five tracheal grafts exposed to B[a]P. All the neoplasms were well-differentiated invasive adenocarcinomas. Tracheal transplants exposed to beeswax without carcinogen did not show any evidence of neoplastic growth, and their luminal surfaces were lined by a single or double layer of cuboidal cells. All lines derived from the adenocarcinomas showed increased in vitro resistance to serum-induced terminal differentiation, gelatinolytic activity, s.c. tumorigenicity and invasive growth in an in vivo assay. When these cell lines were compared with previously described tumor cell lines derived from xenotransplants exposed to cigarette smoke condensate, it became clear that the latter exhibited a more aggressive invasive behavior. Nevertheless treatment with the three chemicals gave rise to tumor cell lines that exhibited a similar invasive behavior in vivo, and were able to penetrate early into the wall of the tracheal transplants in which they were seeded. These data indicate that this system based on xenotransplanted bronchial epithelial cells is a very relevant model to identify human carcinogens and to study mechanisms of bronchogenic cancer pathogenesis.     

The genotype of the human cancer cell: implications for risk analysis

An extremely large database describes genotypes associated with the human cancer phenotype and genotypes of human populations with genetic predisposition to cancer. Aspects of this database are examined from the perspective of risk analysis, and the following conclusions and hypotheses are proposed: (1) The genotypes of human cancer cells are characterized by multiple mutated genes. Each type of cancer is characterized by a set of mutated genes, a subset from a total of more than 80 genes, that varies between tissue types and between different tumors from the same tissue. No single cancer-associated gene nor carcinogenic pathway appears suitable as an overall indicator whose induction serves as a quantitative marker for risk analysis. (2) Genetic defects that predispose human populations to cancer are numerous and diverse, and provide a model for associating cancer rates with induced genetic changes. As these syndromes contribute significantly to the overall cancer rate, risk analysis should include an estimation of the effect of putative carcinogens on individuals with genetic predisposition. (3) Gene activation and inactivation events are observed in the cancer genotype at different frequencies, and the potency of carcinogens to induce these events varies significantly. There is a paradox between the observed frequency for induction of single mutational events in test systems and the frequency of multiple events in a single cancer cell, suggesting events are not independent. Quantitative prediction of cancer risk will depend on identifying rate-limiting events in carcinogenesis. Hyperproliferation and hypermutation may be such events. (4) Four sets of data suggest that hypermutation may be an important carcinogenic process. Current mechanisms of risk analysis do not properly evaluate the potency of putative carcinogens to induce the hypermutable state or to increase mutation in hypermutable cells. (5) High-dose exposure to carcinogens in model systems changes patterns of gene expression and may induce protective effects through delay in cell progression and other processes that affect mutagenesis and toxicity. Paradigms in risk analysis that require extrapolation over wide ranges of exposure levels may be flawed mechanistically and may underestimate carcinogenic effects of test agents at environmental levels. Characteristics of the human cancer genotype suggest that approaches to risk analysis must be broadened to consider the multiplicity of carcinogenic pathways and the relative roles of hyperproliferation and hypermutation. Further, estimation of risk to general human populations must consider effects on hypersusceptible individuals. The extrapolation of effects over wide exposure levels is an imprecise process.     

Effects of extract solution of Aspergillus versicolor on human fetal gastric cells in vitro

To detect the carcinogenicity of sterigmatocystin for human stomach, the human fetal gastric cells, cultured in vitro, were treated with extract solution of Aspergillus versicolor culture (0.117mg sterigmatocystin per Kg culture of Aspergillus versicolor). The cells showed random arrangement, loss of contact inhibition and cell polarity. Some transformed foci were present in different numbers and times according to the dosages of the extract solution. The cells with such changes were analysed with a flow cytometer and the results showed that the cell number in S phase of cell cycle distribution was greatly increased. The above changes were similar to those of the cells treated with MNNG, but no such changes were noted in the control group. These results indicated that sterigmatocystin could induce some characteristics of neoplastic transformed cells and that sterigmatocystin may be a carcinogen for human gastric cancer.     

Development of CD4 and CD8 single positive T cells in human thymus organ culture: IL-7 promotes human T cell production by supporting immature T cells

This paper describes novel model systems to study the development of human T cells. Fragments of neonatal human thymus (HUNT) can be cultured in vitro; the initial majority population of CD4, CD8 double-positive (DP) thymocytes is not maintained in organ culture. These cells are rapidly replaced by populations of CD4 or CD8 single-positive (SP) T cells. In addition, allogeneic thymic chimeras can be established by the addition of human cord blood (HUCB) mononuclear cells as a source of T progenitor cells to the organ cultures. Culture results in the acquisition of a mature SP T cell phenotype by the donor cells similar to that found when HUCB is allowed to develop in xenogeneic murine scid/scid fetal thymus organ culture. The number of immature and mature T cells produced by organ cultures can be differentially increased by the addition of exogenous IL-7, stem cell growth factor, IL-1, or GM-CSF. Anti-IL-7 antibody inhibits T cell production. Taken together, the results suggest that human T cell development occurs in these in vitro systems in a similar manner, regardless of the species origin of the thymic stromal cells in the culture, and that exogenous cytokines can be used to expand subpopulations of developing T cells.     

Suppression of anchorage-independent growth and matrigel invasion and delayed tumor formation by elevated expression of fibulin-1D in human fibrosarcoma-derived cell lines

Using differential display, we identified an mRNA that is markedly down-regulated in cell line 6A/SB1, derived from a fibrosarcoma formed in an athymic mouse following injection of carcinogen-transformed MSU-1.1 cells. The nontumorigenic parental cell strain, MSU-1.1, expresses high levels of this mRNA. Sequencing of the corresponding cDNA fragment revealed that it corresponded to an expressed sequence tag, which ultimately led to its identification as the fibulin-1D gene. Fibulin-1 is a cysteine-rich, calcium-binding extracellular matrix and plasma protein, which has four isoforms, A-D, derived from alternative splicing. Northern and Western blotting analysis of 16 cell lines established from tumors formed in athymic mice by MSU-1.1-derived cell strains independently transformed in culture showed that 44% exhibited low level or lack of expression of fibulin-1D mRNA and protein. In a similar analysis of 15 malignant cell lines derived from patients, 80% showed low level or no expression. To study the role of fibulin-1D in transformation, we transfected 6A/SB1 cells and a human fibrosarcoma-derived cell line (SHAC) with a fibulin-1D cDNA expression construct. Transfectants displaying high levels of fibulin-1D were isolated and characterized. Elevated expression of fibulin-1D led to reduced ability to form colonies in soft agar and reduced invasive potential as tested in a matrigel in vitro invasion assay. Furthermore, expression of fibulin-1D resulted in a markedly extended latency in tumor formation in athymic mice. These results indicate that low expression of fibulin-1D plays a role in tumor formation and invasion.     

Pluripotent tumor cells in benign pituitary adenomas associated with multiple endocrine neoplasia type 1

Analysis of human tumor cells in vitro enhances the study of numerous neoplastic conditions. However, it has been difficult to establish long-term cultures of adenoma cells, especially those of neuroendocrine origin, because the endocrine cells survive only briefly in culture, and fibroblasts overgrow the culture dish in 1 or 2 weeks. We describe cells isolated from pituitary adenomas in two patients with multiple endocrine neoplasia type 1 in which cells with a mesenchymal phenotype evolved from pituitary tumor cells. It appears that these poorly differentiated cells arose from multipotent adenoma cells. This represents a path of cell differentiation not observed previously in humans and may help explain the diverse nature of the benign tumors in multiple endocrine neoplasia type 1.     

Immunosuppressive hybridomas in the pathogenesis of malignant tumors and their metastases in humans and animals (hypothesis)

The author proposes that the formation of immunosuppressive hybridomas resultant from fusion of transformed tumor cells and immune reaction suppressor cells precedes the development of malignant tumors and cancer in man and animals. Physical and chemical carcinogens and oncogenic and nononcogenic viruses act not only as transforming agents in this process, but directly induce these cells' fusion to form immunosuppressive hybridomas. The resultant hybridomas retain the tumor cell capacity to unlimited division and growth and suppressor cell capacity to overcome the immune barrier, and thus form the base for malignant tumors and their capacity to metastasizing.     

Cell, tissue and organ culture as in vitro models to study the biology of squamous cell carcinomas of the head and neck

In vitro models are currently being used to study head and neck squamous cell carcinoma (HNSCC). Several hundred HNSCC cell lines have been established by various investigators and used to study a broad spectrum of questions related to head and neck cancer. The head and neck model with respect to multistage carcinogenesis is now complete. Several techniques exist for the culture of normal epithelial cells from the upper aerodigestive tract (UADT). The biology of these UADT cells (oral cavity, oropharynx, hypopharynx and larynx) is being studied. Successful culture of premalignant lesions (dysplastic mucosa, leukoplakia, erythroplakia) has resulted in establishment of a limited number of premalignant cell lines and cell cultures. HPV infection of normal oral epithelial cells for immortalization (approximately premalignant cells) coupled with transformation with carcinogens (malignant cells) has established an experimental model for progression. Two in vivo models for oral carcinogenesis, the 7,12 dimethylbenz(a)anthracene-induced hamster cheek pouch model and the 4-nitroquinoline-N-oxide rat oral model, have been established in culture. Thus, multistage carcinogenesis models have been established from both human tissues and animal models and include cultures of normal, premalignant and malignant cells. Culture techniques for growing dissociated primary tumor cells for short term experimental analysis are being used. The culture of normal or tumor tissue as organ/explant cultures allows for the maintenance of normal cell-cell and cell-matrix interaction, but limits experimentation since these cultures cannot be propagated. Several three dimensional model systems are being used to obtain this histological complexity but allow for experimentation. The ability to culture normal, premalignant and malignant cells coupled with the use of a variety of culture techniques, should allow for the continued growth and experimentation in head and neck cancer research.     

Increased susceptibility to in vitro transformation of cells carrying the Eker tumor susceptibility mutation

Rats carrying the Eker tumor susceptibility mutation are genetically predisposed to renal cell carcinoma. Rats heterozygous for the Eker mutation (Eker carriers) develop multiple bilateral renal cell carcinomas by the age of 1 year. Using an in vitro rat kidney epithelial (RKE) transformation assay developed in our laboratory, proximal tubule cells derived from known Eker rat carriers (+/ek) and non-carriers (+/+) were exposed to the carcinogen N-methyl-N'-nitro-N-nitrosoguanidine (MNNG), to determine if cells derived from Eker carriers were more susceptible to in vitro transformation than cells derived from non-carrier animals. The percent transformation frequency following MNNG treatment was 7.5-fold higher in cells derived from carrier animals when compared to cells from non-carrier animals. This increased susceptibility to transformation due to inheritance of the Eker mutation is consistent with a predisposition resulting from inactivation of a tumor suppressor gene. The increased susceptibility of kidney epithelial cells carrying the Eker mutation may prove useful in the further development of the RKE transformation assay as a sensitive tool to identify potential renal carcinogens. In addition, because transformation frequency in the RKE assay measures a very early step in multistage transformation, these results also suggest that alterations (by Loss of Heterozygosity or mutation) at the Eker tumor susceptibility locus are an early event in the development of renal tumors in the rat.     

Effects of carcinogenic agents upon different mechanisms for intragenic recombination in mammalian cells

A growing body of carcinogens are known to affect genetic recombination in mammalian cells and to thereby interfere with the process of carcinogenesis. In order to screen for recombinogenic effects of chemical and physical agents a variety of in vitro assay systems utilizing mammalian cells have been developed. However, the effects of potential carcinogens differ in these different systems. In order to investigate this phenomenon further, we have employed two different assay procedures, involving spontaneous duplication mutants in mammalian cells, which respond to homologous or non-homologous recombination. Four carcinogens were investigated, i.e. Aroclor 1221, benzene, methylmethanesulphonate (MMS) and thiourea, as were gamma- and UV-irradiation. With the exception of thiourea all of these factors resulted in elevated frequencies of homologous recombination. On the other hand, only UV-irradiation affected the rate of non-homologous recombination. These results indicate that substrate length and/or the recombination mechanism may influence the recombinogenic response of mammalian fibroblasts to carcinogenic factors. Thus, procedures for recombinogenic effects of carcinogens should consider the different pathways of recombination occurring in mammalian cells.     

Reversible tumorigenesis in mice by conditional expression of the HER2/c-erbB2 receptor tyrosine kinase

In the present study we describe the reversible transformation of NIH3T3 fibroblasts by overexpression of the HER2/c-erbB2 receptor tyrosine kinase. Cell lines expressing HER2 under control of a tetracycline-responsive promoter were isolated. Induction of HER2 expression resulted in cellular transformation in vitro as depicted by growth in soft agar and focus formation in tissue culture. Subsequent treatment of these cells with the effector anhydrotetracyline switched-off HER2 expression and induced morphological and functional changes characteristic for non-transformed cells. Subcutaneous transplantation of cells in nude mice resulted in the formation of solid tumors. Interestingly tumor formation was completely suppressed by treatment of the animals with anhydrotetracyline. Our findings indicate that overexpression of HER2 induces the transformed phenotype of NIH3T3 cells and is required for tumor formation and progression in nude mice. By linking the expression of the marker gene secreted placental alkaline phosphatase to the expression of HER2, a sensitive monitoring of tumor development in nude mice was feasible.     

Proliferation and agglutinability of primary and transformed human epithelial cells in culture

Primary epithelial populations (HAM) were obtained by dissociation of the amniotic membrane stripped from human placentae. Agglutinability of cells from such normal populations and of cells from the transformed epithelial line WISH was then compared using concavanalin A as mediator. Extensive similar studies have previously been reported with cell strains isolated from other species. Freshly dissociated HAM cells from primary cultures agglutinated much less readily than did cells from WISH populations. Furthermore, the former exhibited a drastic decline in agglutinability as a function of time in suspension culture after trypsinization. Short-term exposure (60 h) of HAM cells in monolayer culture to 5-bromodeoxyuridine (BrdU) elicited heightened agglutinability detectable through 22 days in vitro. Addition of the protease inhibitors n-tosyl-L-lysyl-chloromethyl ketone (TLCK) or p-tosyl-L-arginine-methyl ester (TAME) to the culture medium inhibited proliferation of the WISH line by 40--50% while effecting only a 10-15% inhibition of HAM cells. These results also confirm data with other cell species indicating that high proteolytic activity at the surface of transformed cells may be related to the rapid proliferation rate.     

Janus carcinogens and mutagens

Janus carcinogens are carcinogenic agents that, under differing conditions of cell type or dose, can instead act as anticarcinogens. Studies by Haseman and Johnson [J.K. Haseman, F.M. Johnson, Analysis of rodent NTP bioassay data for anticarcinogenic effects, Mutat. Res. , 350 (1996) 131-142], have demonstrated that many chemicals that are carcinogenic for one tissue type can have anticarcinogenic action on another tissue type. As Magni et al. [G.E. Magni, R.C. von Borstel, S. Sora, Mutagenic action during meiosis and antimutagenic action during mitosis by 5-aminoacridine in yeast, Mutat. Res., 1 (1964) 227-230] have shown in 1964, this principle holds true for chemical mutagens as well, that is 9-aminoacridine is an antimutagen in the vegetative cell and a mutagen in the sporulating cell. The conclusion can be drawn that two established carcinogens, tobacco and ionizing radiation, are indeed Janus carcinogens. In their review of 'ambiguous carcinogens' (their name), Weinberg and Storer [A.M. Weinberg, J.B. Storer, Ambiguous carcinogens and their regulation, Risk Anal., 5 (1985) 151-156], pointed out that tobacco can be classified as an ambiguous carcinogen. The strong carcinogenicity and anticarcinogenicity of tobacco smoke and/or tobacco itself (i.e., chewing tobacco) may be due to components in the mixture, not that of a single carcinogenic chemical that also may be anticarcinogenic. Kondo [S. Kondo, Health Effects of Low-Level Radiation, Kinki Univ. Press, Osaka, Japan and Medical Physics Publishing, Madison, WI, 1995, 213 pp.] has compiled data that demonstrate that human populations who survive exposures to ionizing radiation generally live longer and have less cancer than unirradiated human populations, and this Janus phenomenon goes beyond the more trivial concept of increased sensitivity to radiation of rapidly dividing tumor cells. Thiabendazole is an interesting compound in that it is both aneugenic and antimutagenic, and yet it does not appear to be a carcinogen or a mutagen. It is discussed here because aneugenesis and antimutagenesis are at extremes of the mutagenic spectrum. In general, mutagenic or carcinogenic actions usually are at least partially understood at a molecular level, whereas antimutagenic and anticarcinogenic actions usually are not. It is possible there may be numerous specific mechanisms underlying the Janus activity of different chemicals.     

Growth and differentiation of human bone marrow osteoprogenitors on novel calcium phosphate cements

Materials that augment bone cell proliferation and osteogenic activity have important therapeutic implications for bone regeneration and for use in skeletal reconstruction and joint replacement. We have studied the growth and interactions of human bone marrow cells on a variety of new cement composites in vitro. These cement materials are composed of calcium-deficient hydroxyapatites, carbonated apatite and amorphous calcium phosphate. Cell proliferation was significantly reduced and cell differentiation increased in the presence of these cements compared with cells cultured on tissue culture plastic. Alkaline phosphatase, one of the markers of the osteoblast phenotype, was dramatically stimulated by 3 of the 4 cements examined between day 4 and day 10, above levels observed following culture of human osteoblasts on plastic alone. Photomicroscopic examination demonstrated growth and close integration of bone marrow cells and 3 of the composites. Longer term marrow cultures (15 day) on the cements confirmed the stimulation of cell differentiation over proliferation. From these studies, enhanced osteoblastic differentiation was observed on a 70% carbonated apatite, which has a composition similar to bone mineral, whereas, cell toxicity was observed on cells grown on amorphous calcium phosphate. This in vitro culture system demonstrates the use of human bone marrow cells for the potential evaluation of new biomaterials and the development of a novel carbonated apatite that may be of potential use in orthopaedic implants.     

The use of particle characteristics to elucidate mix homogeneity in binary powder blends

Primary central nervous system (CNS) atypical teratoid/malignant rhabdoid tumors (ATT/RhT) occur during early childhood and are almost invariably fatal. Expression of multiple phenotypes in ATT/RhT suggests the presence of an undifferentiated progenitor with the potential to differentiate along multiple lines. These properties have made it difficult to characterize the etiology and histogenesis of these tumors and complicate efforts to develop targeted therapies. This paper characterizes the immunophenotype of a human CNS ATT/RhT and describes the properties of a derivative cell line (Atrt95) which retained morphological and immunochemical characteristics of the parent tumor including diverse differentiation. Most tumor cells were strongly immunoreactive for glial fibrillary acidic protein, vimentin and A2B5. Scattered, large tumor cells that showed a rhabdoid phenotype were immunoreactive for synaptophysin. The morphology of cultured Atrt95 cells was heterogeneous, but often fit into 1 of 3 classes that appeared to correspond to cell populations observed within the parent tumor including: 1) tightly-packed small-cell colonies, 2) large, well-spread highly motile cells and 3) arrays of elongated cells. In vitro assays demonstrated that growth of the entire culture was anchorage-dependent but not serum-dependent. Transplantation of Atrt95 cells into the rat spinal cord resulted in tumor growth and CNS invasion. Preliminary cytogenetics study revealed complex aneuploidy but no apparent monosomy or deletions of chromosome 22. The immunophenotype of this neoplasm and derivative cell line is consistent with a primitive glioneuronal lineage and its in vitro characteristics are that of an invasive malignancy similar to the naturally occurring tumor. This unique cell line (Atrt95) provides a valuable model to study the biology and genetics of the CNS ATT/RhT.