AZU-1: a candidate breast tumor suppressor and biomarker for tumor progression

To identify genes misregulated in the final stages of breast carcinogenesis, we performed differential display to compare the gene expression patterns of the human tumorigenic mammary epithelial cells, HMT-3522-T4-2, with those of their immediate premalignant progenitors, HMT-3522-S2. We identified a novel gene, called anti-zuai-1 (AZU-1), that was abundantly expressed in non- and premalignant cells and tissues but was appreciably reduced in breast tumor cell types and in primary tumors. The AZU-1 gene encodes an acidic 571-amino-acid protein containing at least two structurally distinct domains with potential protein-binding functions: an N-terminal serine and proline-rich domain with a predicted immunoglobulin-like fold and a C-terminal coiled-coil domain. In HMT-3522 cells, the bulk of AZU-1 protein resided in a detergent-extractable cytoplasmic pool and was present at much lower levels in tumorigenic T4-2 cells than in their nonmalignant counterparts. Reversion of the tumorigenic phenotype of T4-2 cells, by means described previously, was accompanied by the up-regulation of AZU-1. In addition, reexpression of AZU-1 in T4-2 cells, using viral vectors, was sufficient to reduce their malignant phenotype substantially, both in culture and in vivo. These results indicate that AZU-1 is a candidate breast tumor suppressor that may exert its effects by promoting correct tissue morphogenesis.     

Gradual Selection of a Cellular Clone Presenting a Mutation at Codon 179 of the p53 Gene during Establishment of the Immortalized Human Breast Epithelial Cell Line HMT-3522

We studied the occurrence of a p53 mutation along passages stored as frozen vials during establishment of a nontumorigenic human mammary epithelial cell line HMT-3522. Mutations were identified by a PCR-SSCP approach using DNA as a template. The mutation, a nonconservative nucleotide substitution at codon 179 changing a histidine into an asparagine, appeared between passages 51 and 63 and was concommitant to a change in growth conditions. Cells were no longer grown on collagen coat and cell growth was not responsive to insulin, transferrin, or hydrocortisone anymore. To assess if the mutation was an early or a late event during cell line evolution we put a vial of cells frozen at passage 30 back into culture and tested for the appearance of a p53 mutation along newly produced passages. The same mutation (His to Asp at codon 179), as previously identified, reemerged between passages 48 and 52, thus indicating that the mutation was preexisting in passage 30 and gradually selected out because of the growth advantage it conferred. In order to gain in sensitivity we used a RFLP approach on PCR fragments which allowed us to detect the mutation as early as passage 44. Hence it took 14 passages (approx 50 cell doublings) for the mutated cells to become detectable and another 9 passages (33 generations) to overgrow the wild-type component of the population. We calculated that the mutated cells acquired a growth advantage which allowed them to cycle 1.2 ± 0.05 faster than wild type. Computer simulations were consistent with the mutation appearing at passage 20.     

Characterization of cancer cell lines established from two human metastatic breast cancers

Summary Cell lines are valuable resources for the study of the malignancy and potential therapy of human breast cancer. A major problem with adapting fresh breast tumor specimens to grow in vitro is contamination by fibroblasts. Previously, we have reported a technique to overcome this problem (Nayak, S. K; Dillman, R. O. Clin. Biotechnol. 3:237–242; 1991). We have recently established two new breast cancer cell lines, HH315 and HH375, that were derived from abdominal and supraclavicular lymph node metastases from two patients. They were characterized by (1) growth kinetics; (2) staining with monoclonal antibodies (MoAbs) to cytokeratin-19, epithelial membrane antigen (EMA), anticarcinoembryonic antigen (CEA), breast cancer antigen 1 (BRST-1), breast cancer antigen 2 (BRST-2), Her2/neu, and p53; (3) expression of domains of urinary plasminogen activator (uPA), neural cell adhesion molecule (NCAM), and haptoglobin (Hp) (Harvey et al., 1997); and (4) karyotypic analysis. Growth kinetic studies showed that doubling times for both lines ranged from 48 to 96 h. These two cell lines were found to have characteristics of the metastatic breast cancer cells. Both lines stained positive with MoAbs to cytokeratin-19 and EMA, thus confirming their epithelial origin. They also strongly reacted with the pan-breast carcinoma MoAbs BRST-1 and BRST-2, and carcinoembryonic CEA MoAb. Both cell lines overexpressed the oncogene proteins Her2/neu and p53. The tumor cells were negative for estrogen and progesterone receptors. HH315 cells were poorly differentiated, whereas the HH375 cells exhibited adenocarcinoma morphology. Both cell lines showed intense cell surface and some cytoplasmic staining for uPA, NCAM, and Hp domains, which is a characteristic of malignant neoplasms (Harvey et al., 1997). The HH375 cell line showed two cell types, of which 60% were hyperdiploids with 60–70 chromosomes and 5–10 marker chromosomes. The remaining cells were polyploid with more than 200 chromosomes. Cell line HH315 consisted of only a polyploid population. These cell lines may be useful in breast cancer research.     

Intracellular pH regulation in a nonmalignant and a derived malignant human breast cell line

Tumor cells in vivo often exist in an ischemic microenvironment that would compromise the growth of normal cells. To minimize intracellular acidification under these conditions, these cells are thought to upregulate H(+) transport mechanisms and/or slow the rate at which metabolic processes generate intracellular protons. Proton extrusion has been compared under identical conditions in two closely related human breast cell lines: nonmalignant but immortalized HMT-3522/S1 and malignant HMT-3522/T4-2 cells derived from them. Only the latter were capable of tumor formation in host animals or long-term growth in a low-pH medium designed to mimic conditions in many solid tumors. However, detailed study of the dynamics of proton extrusion in the two cell lines revealed no significant differences. Thus, even though the ability to upregulate proton extrusion in a low pH environment (pH(e)) may be important for cell survival in a tumor, this ability is not acquired along with the capacity to form solid tumors and is not unique to the transformed cell. This conclusion was based on fluorescence measurements of intracellular pH (pH(i)) on cells that were plated on extracellular matrix, allowing them to remain adherent to proteins to which they had become attached 24 to 48 h earlier. Proton translocation under conditions of low pH(e) was observed by monitoring pH(i) after exposing cells to an acute acidification of the surrounding medium. Proton translocation at normal pH(e) was measured by monitoring the recovery after introduction of an intracellular proton load by treatment with ammonium chloride. Even in the presence of inhibitors of the three major mechanisms of proton translocation (sodium-proton antiport, bicarbonate transport, and proton-lactate symport) together with acidification of their medium, cells showed only about 0.4 units of reduction in pH(i). This was attributed to a slowing of metabolic proton generation because the inhibitors were shown to be effective when the same cells were given an intracellular acidification.     

Proliferative responses of epithelial cells to 8-bromo-cyclic AMP and to a phorbol ester change during breast Pathogenesis

We have explored the relationship of changes in proliferative responses of human mammary epithelial cells to a phorbol ester (TPA) and to 8-Br-cAMP, which modulate the activities of protein kinases A and C (PKA and PKC), with breast tumour progression. Treatment with TPA had no effect on nontumorigenic cell lines established from human fibrocystic biopsies and apparently normal tissue around a tumour. In contrast, TPA strongly inhibited the proliferation of numerous human tumorigenic breast cell lines. Treatment with 8-Br-cAMP decreased the proliferation of all studied nontumorigenic and tumorigenic cell lines. We have also studied the effect of TPA and 8-Br-cAMP on growth of epithelial cells in short-term culture obtained from surgical human mammary biopsies with different states of breast disease. Both drugs enhanced growth of normal breast cells but had no significant effects on cells from biopsies with benign breast disease. In contrast, all examined cuitures from breast cancer biopsies were strongly inhhited by 8-Br-cAMP. Otherwise, TPA had an inhibitory effect only in the case of invasive ductal carcinoma of grade III. Malignant Ha-ras-transformation of nontumorigenic TPA-insensitive breast HBL-100 cells induced an inhibitory effect of TPA. In addition, a TPA-insensitive MCF7 clone was much less tumorigenic in athymic mice than the parental strain shown to be inhibited by TPA. These data suggest that the two intracellular transduction pathways change at different stages of breast pathogenesis. Alterations in the PKA pathway are early events and are probably important to cell immortalization but do not necessarily lead to malignant development. In contrast, changes in PKC pathway are rather later events associated with advanced malignant transformation. © 1994 Wiley-Liss, Inc.     

Immunochemical analysis of protein expression in breast epithelial cells transformed by estrogens and high linear energy transfer (LET) radiation

Breast cancer is a complex disease involving numerous genetic aberrations. Immunochemical analysis of protein expression is presented in a human breast epithelial cell line neoplastically transformed by high linear energy transfer (LET) α particle radiation in the presence of 17β estradiol (E) and in the parental human breast epithelial cell line (MCF-10F) which served as a non-tumorigenic control. The aim of this work was to determine the levels of mRNA and protein expression in control and transformed cells at various stages of the neoplastic process. The levels of mRNA and protein expression of PCNA, c-fos, JNK2 and Fra-1 were increased in the transformed cell line compared to the levels in non-tumorigenic control cells. The transforming factor Rho A was significantly increased only in the tumor cell line. Furthermore, the levels of mRNA and protein expression of ErbB2 were significantly increased in the transformed cell line and in tumor cells derived from the transformed cells after injecting them into nude mice. A decrease in RbA/p48 protein expression and mRNA levels was observed in cells treated with double doses of α particle radiation in the presence of estrogen, regardless of tumorigenicity. Such expression was lower than that in the control untreated MCF-10F cells. In summary, these studies show that estrogen and high LET-radiation induce changes in oncoprotein expression and mRNA levels of human breast cell lines. These changes are indicative of a cascade of events that characterize the process of cell transformation in breast cancer. These results provide evidence that multiple steps with consecutive changes are involved when normal cells become tumorigenic cells as a result of α particle irradiation and estrogen treatments.     

人胚胎角膜上皮细胞系的建立和生物学特性

为构建角膜基础研究的稳定载体和操作平台,通过合法渠道获得人胚胎,并对角膜上皮细胞进行了分离培养。经反复传代,初步建立了人胚胎角膜上皮细胞系,并对其生物学特性进行了研究。结果显示,培养细胞具有较典型的上皮细胞特征。细胞生长较快,最快时两天可传代一次。K19和PCNA在各代胚胎角膜细胞均有表达,K19的表达部位位于胞浆,而PCNA的表达部位位于胞核。处于细胞周期中S期的细胞比例大约为11%￣23%。染色体核型分析表明各代细胞染色体的数目和形态相似。因此,人胚胎角膜上皮细胞适合于建立相对稳定的细胞系。培养细胞具有分化上的幼稚性和较强且稳定的增殖能力,细胞生长状态良好,而且该细胞系的遗传特征较为稳定。     

Growth requirements and neoplastic transformation of two types of normal human breast epithelial cells derived from reduction mammoplasty

Summary A chemically defined culture medium was developed to support the growth of two distinctly different types of normal human breast epithelial cells (HBEC) derived from reduction mammoplasty. Type I cells expressed luminal epithelial cell markers and were deficient in gap junctional intercellular communication (GJIC), whereas Type II cells expressed basal epithelial cell markers and were efficient in GJIC. In this study, we examined and compared the growth factor and hormone requirements of these two types of cells and a series of cell lines that were obtained by sequential transfection with SV40 DNA (extended lifespan, nontumorigenic), treatment with 5-bromodeoxyuridine (BrdU)/black light (immortal and weakly tumorigenic), and infection of a virus carrying the neu oncogene (highly tumorigenic). Growth of Type I cells was inhibited by withdrawing epidermal growth factor (EGF), hydrocortisone (HC), or insulin (INS) from the culture media, but was enhanced by fetal bovine serum (FBS) supplementation. Growth of Type II cells was inhibited by withdrawal of EGF, HC, or INS from the media, and was inhibited by FBS supplementation. Withdrawal of human transferrin (HT) or 17β-estradiol (E₂) from the media did not alter the growth of Type I or Type II cells. SV40 transfected Type I cell lines still required EGF, HC, or INS for optimal growth. However, the highly tumorigenic cell line did not show a growth dependence on EGF, HC, or INS but did appear to require HT and 3,3′,5-triiodo-D.L. thyronine (T₃) for optimal growth. In addition, FBS stimulated the growth of these cell lines. Thus, this study shows that Type I HBEC are distinctly different from Type II HBEC in growth response to FBS and that neoplastically transformed Type I cells could become growth factor and hormone independent.     

Nuclear control of tumorigenicity in cells reconstructed by PEG-induced fusion of cell fragments

The techniques of somatic cell hybridization have provided a valuable means of studying mechanisms of regulation of mammalian cell differentiation and transformation. Most previous studies have indicated that fusions between tumorigenic and nontumorigenic cells result in hybrid cells that are usually tumorigenic. In recent years it has been demonstrated that the phenotypic expression of tumorigenicity is at least partially due to the extensive chromosome loss that occurs in most interspecific and some intraspecific hybrid cells. In the present study we have utilized enucleation techniques that permit cells to be divided into nuclear (karyoplast) and cytoplasmic (cytoplast) cell fragments. Even though these nuclear and cytoplasmic fragments are metabolically stable for short periods of time, in our hands they ultimately degenerate. Viable cells can be reconstructed by PEG-induced fusion of karyoplasts to cytoplasts. Since reconstructed cells apparently do not segregate chromosomes, they may provide a clearer understanding of the interactions between the nucleus and the cytoplasm in the control of the expression of tumorigenicity. We have reconstructed cells using karyoplasts from the tumorigenic Y-1 cell line and cytoplasts from a nontumorigenic cell line, A-MT-BU-A1. In addition we have reconstructed cells containing Y-1 cytoplasts and A-MT-BU-A1 karyoplasts. The reconstructed cells porduced were assayed for tumorigenicity by their ability to grow in soft agar and in nude mice. The results of these experiments indicate that the reconstructed cells containing a tumorigenic nucleus and a nontumorigenic cytoplasm ultimately are tumorigenic and conversely the reconstructed cells containing a nontumorigenic nucleus and a tumorigenic cytoplasm are nontumorigenic. These experiments support the concept that with these cell lines the nucleus (karyoplast) is sufficient to control the phenotypic expression of tumorigenicity.     

Cellular localization of tissue factor in human breast cancer cell lines

Expression of tissue factor (TF), the cellular receptor of clotting factor VII/VIIa, is a feature of certain malignant tumours. The TF gene has been classified as an immediate early gene responsive to serum and cytokines. Thus, the regulation of TF gene expression seems to play a role in cell growth. Recently, we have shown that constitutive TF expression in MCF-7 breast cancer cells is modulated by such growth factors as EGF, TGFα, and IL-1. The present study deals with the immunocytochemically detectable cellular distribution of TF in human breast cancer cell lines MCF-7 and MaTu stimulated by EGF and TGFα. In MCF-7 cells growing logarithmically, stimulation led to a significant increase of TF mRNA after 2 h (in situ hybridization, Northern blot) and to maximum TF expression after 6 h (immunohistochemistry). When decorated by monoclonal antibodies, TF protein showed a pronounced localization at ruffled membrane areas, cell edges, and processes of spreading cells after 6 and 20 h. In more flattened cells TF was concentrated in peripheric lamellae and microspikes communicating with neighbouring cells. After epithelial colony pattern had established, TF was predominantly accumulated at the intercellular boundaries. The vary same distribution patterns as seen in MCF-7 cells were true for the stimulated MaTu cell line. The dynamics and cellular distribution patterns of stimulated TF expression support the hypothesis that TF could be of importance for morphogenic events associated with the growth and differentiation of breast cancer cells in culture.     

Characterization of a reptilian epithelioid skin cell line derived from the green sea turtle,Chelonia mydas

Summary A continuous line of epithelioid cells was established from explant skin tissues of the green sea turtle,Chelonia mydas. These cells, designated GTS, have been subcultured more than 60 times in commercially available mammalian cell culture medium supplemented with 5% bovine calf serum. Of those temperatures tested, optimal growth was achieved at 30°C although replication occurred between 16 and 37°C. These cells may be held as monolayers at 8°C or stored frozen in growth medium containing 10% dimethylsulfoxide at −70 or −196°C. The modal number of 55 chromosomes per cell is in agreement with the heterogametic female diploid number of this species. The GTS line represents the first established culture of normal epithelioid skin cells to be reported for a poikilothermic species.     

Karyotypic changes associated with spontaneous acquisition and loss of tumorigenicity in a human transformed bronchial epithelial cell line: Evidence for In vivo selection of transformed clones

Summary In this study, we describe the karyotypic changes associated with the spontaneous acquisition of tumorigenicity in an immortalized tumor bronchial cell line. Neoplastic transformation of the NL20 human bronchial epithelial cell line occurred after 3 yr in culture, and was associated with loss of chromosome 18 together with acquisition of multiple copies of 9q21.2→34. The nontumorigenic NL20 cell line had been established by transfection of human bronchial epithelial cells with the SV40 T antigen, and had retained a relatively stable karyotype after the first 32 passages in vitro. However, when cells from p184 were inoculated into nude mice, a transplantable tumor was obtained that was derived from a minor clone present in this otherwise stable line. Subsequent passaging of the NL20 cells in vitro did not yield further tumors, and the minor clone from which the tumorigenic NL20T cell line derived was no longer evident in NL20 cells by Passage 205. Furthermore, the original tumorigenic NL20T cells lost the neoplastic phenotype after 25 passages in vitro and reverted to the nontumorigenic karyotype observed at p189. In contrast to the loss of the tumorigenic phenotype and karyotype, which occurred with in vitro passaging of the original tumor, when the NL20T cells were passaged in other nude mice, they continued to give rise to tumors with sevenfold amplifications of 9q sequences and loss of chromosome 18, and cells from the secondary tumors (NL20T-A cells) have maintained a stable karyotype and remain tumorigenic even after 64 passages in vitro. A mixture of 10% tumorigenic NL20T-A and 90% nontumorigenic NL20 cells formed tumors in athymic nude mice when cultured in vitro on fibronectin, but not on plastic; cytogenetic analysis demonstrated that the tumors and cell cultures were composed of tumorigenic NL20T-A cells, whereas cytogenetic analysis of cells cultured on plastic were identical to the nontumorigenic NL20 cells. These data support the hypothesis that neoplastic transformation in our original cell line arose from in vivo selection of a small mutant clone, which had arisen in culture and was subsequently selected in vivo but was lost with in vitro culture.     

Dose-dependent changes of the ratio of apoptosis to proliferation by norethisterone and medroxyprogesterone acetate in human breast epithelial cells.

OBJECTIVE: There is increasing evidence that adding progestogens to estrogen replacement therapy may do more harm than good; however, whether all progestogens act equally on breast cells is debatable. Apart from estrogens, mitogenic growth factors from stromal breast tissue are important in growth-regulation of breast cells, and may modify the response to progestogens. We investigated the effects of medroxyprogesterone acetate (MPA) as well as norethisterone (NET) in the presence of a growth factor mixture and/or estradiol in normal and cancerous human epithelial breast cells. METHODS: MCF10A cells (human epithelial, estrogen- and progesterone-receptor negative, normal breast cells), HCC1500 (human estrogen and progesterone receptor-positive primary breast cancer cells) and MCF-7 cells (human estrogen and progesterone receptor-positive metastatic breast cancer cell line) were used in the experiments. The cells were incubated with progestogens at concentrations of 10(-10) to 10(-6) M for 7 days and growth factors (GFs), estradiol (E2) alone and a combination of GFs + E2. Cell proliferation rate was measured by ATP assay. Apoptosis was measured by cell death assay. Ratios of cell death : proliferation were calculated from these results. RESULTS: In MCF10A cells growth factors elicited a decrease in the ratio of apoptosis to proliferation. This effect was further stimulated by the addition of MPA, whereas NET had no effect. In HCC cells growth factors and estradiol alone and in combination led to a reduction in the ratio. This effect could be partly reversed dose-dependently by the addition of MPA and NET, being more pronounced for MPA. Similar results were found for MCF-7 cells stimulated by estradiol. CONCLUSION: The results of our investigations demonstrate that there are differences between the two progestogens NET and MPA investigated with respect to their effects on normal and cancerous cells. By increasing the mitotic rate of normal epithelial cells, MPA may increase breast cancer risk in women when used in long-term treatment. In this respect NET reacts neutral. The mitosis of pre-existing cancerous cells may be partly inhibited by the addition of both progestogens. Thus, our results indicate that it is necessary to differentiate between normal and malignant breast cells concerning the assessment of progestogens as a risk factor for breast carcinogenesis.     

Analysis of protein expression during oxidative stress in breast epithelial cells using a stable isotope labeled proteome internal standard

Normal cells undergo a variety of molecular and physiological changes upon malignant transformation, including their responses to environmental factors that induce oxidative stress. Understanding the molecular pathways regulating these changes would facilitate the development of novel cancer treatments and chemoprevention strategies. Differences in the oxidative stress response were investigated between nonmalignant (S-1) and malignant (T4-2) cell lines (both derived from the HMT-3522 breast epithelial cells) using proteomic approaches. A modification of the stable isotope labeling of amino acids in cell culture (SILAC) approach was employed in which a [(13)C,(15)N]-labeled proteome was prepared from both cells. Relative quantification of the proteome derived from the S-1 cells and the T4-2 cells was then conducted using a [(13)C,(15)N]-labeled proteome as the internal standard. Differentially expressed proteins that changed in a similar manner in both cell lines were mainly stress response proteins, including heat shock proteins, peroxiredoxins, and redox proteins. Proteins that showed significant change in expression level in only one the cell lines included cytoskeleton proteins and proteins implicated in cell cycle and apoptosis regulation. Fortilin was found to be significantly up regulated in the transformed T4-2 cells after H(2)O(2) treatment but not in the parental S-1 cells. However, Ran/TC4 was up regulated by H(2)O(2) in the nonmalignant breast epithelial cells but not in the malignant cells. These results suggest that the malignant T4-2 cells have acquired more resistance to H(2)O(2)-induced apoptosis than the nonmalignant S-1 cells.     

Production and characterization of mammary-derived growth factor 1 in mammary epithelial cell lines.

A mammary-derived growth factor, MDGF1, which stimulates collagen synthesis and proliferation in mammary epithelial cells was previously detected and purified from human milk and primary human breast tumors. MDGF1 binds to putative cell-surface receptors of 120-140 kDa and stimulates proliferation of normal and malignant human mammary epithelial cells. Partial protein sequence (N-terminal 18 amino acid sequence) shows that MDGF1 has no homology to any other known growth-promoting peptides. Polyclonal antiserum raised against this synthetic peptide recognizes native milk-derived MDGF1. We hypothesize that MDGF1 might be an autocrine or paracrine factor produced by and acting on normal and malignant human breast epithelial cells possessing MDGF1 receptors. As a first step in testing this possibility, we examined whether human breast epithelial cells in culture produce the growth factor. A protein with the size of MDGF1 was immunologically detected in the concentrated conditioned medium prepared from human breast cancer cell line MDA-MB 231, the mammary-derived but nontumorigenic HBL-100 line, and the normal reduction mammoplasty-derived, nonimmortalized 184 cell strain. A competitive radioreceptor assay (RRA) was used to estimate the level of MDGF1 in the conditioned medium. MDGF1 was present in the nanogram range per 1 million cells. A 62-kDa protein was detected in the above cell lysates by Western immunoblotting or by immunoprecipitation of metabolically labeled cell-conditioned media. The polyclonal antisera directed against the 18 amino acid peptide sequence from milk-derived MDGF1 could adsorb MDGF1 biological activity from conditioned medium. In vitro translation of cell mRNA yielded a protein of 55 kDa which was immunoprecipitated by anti-MDGF1 antibody.(ABSTRACT TRUNCATED AT 250 WORDS)     

Establishment and characterization of a porcine kidney cell line, FS-L3, which forms unique multicellular domes in serum-free culture

Summary A stable porcine kidney epithelial cell line, FS-L3, was established and maintained in Eagle’s minimum essential medium containing 0.295% tryptose phosphate broth, 0.5% Bacto Peptone, and 10 mM N, N-Bis (2-hydroxyethyl)-2-aminoethanesulfonic acid without any serum. The mode of chromosomes is 37 to 38. The FS-L3 cells formed fluid-filled, multicellular, three-dimensional domes on a single monolayer. The number of domes increased markedly after further cultivation. The origin of this cell line was confirmed as porcine by hybridization using PRE-1, which can be detected as a specific sequence in the porcine genome. It was also found that FS-L3 cells were free from possible adventitious viruses and mycoplasmas.     

Growth factor interactions between mouse mammary cell lines cocultured in collagen gels

Summary Three related mouse mammary cell lines were cultured in collagen gels and assayed for growth factor responsiveness and interaction via soluble factors. The CL-S1 cell line is nontumorigenic and grows poorly in collagen gel culture. The +SA and −SA cell lines exhibit different degrees of malignant behavior in vivo and have different growth properties in vitro. In collagen gel culture, +SA growth was stimulated by serum but not by epidermal growth factor (EGF), whereas both serum and EGF were required for optimal growth of −SA cells of early passage number as well as CL-S1 cells. −SA cells of later passage repeatedly exhibited a change so as to no longer require serum while retaining EGF responsiveness. [¹²⁵I]EGF binding analyses indicated that CL-S1 cells bound EGF with less affinity than did −SA cells whereas +SA cells bound almost to ligand. When cell lines were maintained in separate collagen gels but shared the same culture medium, growth of +SA or −SA cells was slightly enhanced in the presence of CL-S1 cells and −SA cell growth was enhanced by the presence of +SA cells. Using the normal rat kidney fibroblast line NRK (clone 49F) as an indicator, serum-containing conditioned media from each cell line and from each pair of cell lines cultured in collagen gels were tested for transforming growth factor (TGF) activity. Both the −SA and CL-S1 lines tested positive for TGF-α production and possibly released a TGF-β activity. These results suggest mechanisms by which cell populations in and around tumors can modify one another’s growth characteristics. The work was supported by a grant from the American Institute for Cancer Research, by American Cancer Society Institutional grant IN-119, by funds from the Poncin Trust (Seattle-First National Bank), and by grants CA-39611 and CA46885 from the National Institutes of Health, Bethesda, MD.     

Endocrine characteristics of human breast epithelial cells, MCF-10F

MCF-10F is a spontaneously immortalized nontransformed human breast epithelial cell line which does not grow in soft agar or form tumors in nude mice. Though the presence of estrogen receptors has not been found in these cells, they can metabolize estradiol very efficiently. The present study describes the endocrine characteristics of this cell line with respect to growth response to estradiol and its metabolites, estradiol metabolism and aromatase activity. MCF-10F cells were growth stimulated by 16alpha-hydroxyestrone and estriol, whereas, estradiol and other estradiol metabolites did not affect cell proliferation. The constitutive level of 16alpha-hydroxyestrone, a metabolite of estradiol biotransformation that has been associated with enhanced carcinogenesis in several animal, cell and tissue culture models, was a hundredfold higher in the non-transformed MCF-10F cells than in the transformed MCF-7 cells. Treatment with the carcinogen, dimethylbenz(a)anthracene (DMBA), however, did not upregulate 16alpha-hydroxylation as was observed in transformed MCF-7 cells. MCF-10F cells also had no detectable aromatase activity though the level of 17-oxidation was unusually high as compared with MCF-7 cells. Our results using the non-transformed MCF-10F cells as a model system suggests that the presence of high level of 16alpha-hydroxyestrone, a metabolite previously shown to be associated with malignant phenotype, may not be sufficient for breast cancer transformation.     

Positive regulation of normal and tumoral mammary epithelial cell proliferation by fibroblasts in coculture

Summary In the mammary gland, mesenchymal-epithelial interactions are of paramount importance during normal and tumoral developments. We have studied the paracrine growth regulation of a variety of breast epithelial cells in coculture with normal or pathological breast fibroblasts. Two models of coculture were used in which the two cell types were seeded and grown, either together in microchamber slides or separated by a microporous membrane. Under these two conditions, all fibroblasts were shown to stimulate the proliferation of the hormono-responsive breast carcinoma MCF-7 cell line, suggesting that cell contacts were not indispensable for the paracrine stimulation of MCF-7 cell growth by fibroblasts. Moreover, in the Transwell coculture system, the proliferation of a variety of other breast carcinoma cells (MDA-MB231, T47D, and BT-20) was also stimulated by fibroblasts. However, the amplitude of the proliferative response seemed to be dependent on the carcinoma cell line considered. Moreover, the proliferative response of normal mammary epithelial cells to the presence of fibroblasts was shown to be significantly higher than the tumor cell response. The nature of the tissue of fibroblast origin, normal or pathological, did not influence the growth response of the epithelial cells. In this study, we thus demonstrate that fibroblasts are able to stimulate the proliferation of normal and carcinoma cells through paracrine exchange mechanisms. We also conclude that the target epithelial cell phenotype will essentially determine the extent of the proliferative response.