Estrogen regulation of specific messinger RNA's in human breast cancer cells

Constitutive overexpression of the 27,000 dalton heat shock protein in late passage human breast cancer cells

We present evidence that the mechanisms controlling induction of heat shock transcription factors (HSFs) and mRNA expression of the 27,000 molecular weight heat shock protein, hsp27, are diverse in human breast cancer cells. Heat shock accumulation of hsp27 RNA is associated with the activation of HSF in MDA-MB-231 cells. We have later passage MCF-7 breast cancer cell lines with elevated, constitutive expression of hsp27 mRNA, perhaps due to hsp27 gene amplification. Estradiol and heat shock treatment no longer affect the level of hsp27 mRNA in these cells. Heat induction of HSF is inhibited in cells overexpressing hsp27, although metal ions and amino acid analogs are still capable of activating HSF. These cells will provide a useful system for characterizing alternative pathways in HSF inhibition and activation.

In vitro effect of oestradiol on thymidine uptake in pulmonary vascular smooth muscle cell: role of the endothelium

1. The effect of different concentrations of oestradiol-17 beta (3-300 nM) on [3H]-thymidine uptake was studied in segments from canine pulmonary artery, and cultures of rat pulmonary vascular smooth muscle cells (VSMC). 2. Incubation with oestradiol-17 beta for 24 h, potentiated in a concentration-dependent manner [3H]-thymidine uptake in VSMC cultures. 3. Oestradiol-17 beta potentiated thymidine uptake by pulmonary arterial segments but only when the endothelium had been removed. Autoradiography showed dense incorporation of radioactive thymidine in the vascular smooth muscle cells of the media. 4. The non-steroidal oestrogen, stilboestrol (300 nM), also significantly potentiated [3H]-thymidine uptake, in both VSMC cultures and pulmonary artery segments. Testosterone was ineffective at a similar concentration. 5. Pre-incubation of the pulmonary VSMC with the anti-oestrogen tamoxifen (1 microM) antagonized the potentiating effect of oestradiol-17 beta on [3H]-thymidine incorporation. The effect of tamoxifen was less pronounced in pulmonary arterial segments. 6. These data suggest that oestrogen may promote proliferation of pulmonary VSMC. Endothelial injury or dysfunction may be an important factor in the expression of the oestrogenic effect. 7. We speculate that plasma oestrogen may be a contributing factor to the proliferative lesion observed in certain forms of pulmonary vascular injury in women.

2,3,7,8-Tetrachlorodibenzo-p-dioxin causes an extensive alteration of 17 beta-estradiol metabolism in MCF-7 breast tumor cells

MCF-7 breast tumor cells form multicellular foci in vitro when supplemented with 17 beta-estradiol (E2). In the presence of E2 and the aryl hydrocarbon-receptor agonist 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), MCF-7 cells grow to confluence but do not form foci. To investigate the role of E2 metabolism in this antiestrogenic effect of TCDD, analyses were performed by capillary GC/MS. The results revealed that pretreatment of MCF-7 cultures with TCDD (10 nM) rapidly depletes E2. In untreated cultures supplemented with 10 nM E2, the concentration of free E2 decreased to 4 nM in the first 12 hr, followed by a slower rate of decline. After 3 days most E2 in the medium was in conjugated form(s); 1.7 nM was present as free E2, and 2.9 nM was released by treatment with glucuronidase/sulfatase. In TCDD-treated cultures, E2 declined to 290 pM in 12 hr and after 2 days was not detected (less than 100 pM) either as free steroid or after treatment with glucuronidase/sulfatase. Intracellular E2 and estrone were likewise depleted by pretreatment with TCDD. Microsomes from TCDD-treated cells showed highly elevated aryl hydrocarbon-hydroxylase activity and catalyzed hydroxylations of E2 at C-2, C-4, C-15 alpha, and C-6 alpha with a combined rate of 0.85 nmol/min per nmol of cytochrome P-450 at saturating E2. These results suggest that depletion of E2 by enhanced metabolism accounts for the antiestrogenic activity of TCDD in MCF-7 cells.

A cDNA for the estradiol-regulated 24K protein: control of mRNA levels in MCF-7 cells

We have previously demonstrated an estradiol-regulated 24 kDa (24K) protein in human breast cancer tissue culture cells and human tumor biopsies. The presence of 24K correlates well with the presence of steroid hormone receptors. In order to further study the hormonal regulation of the 24K protein and gene, we have isolated cDNA clones corresponding to the 24K mRNA. Poly(A)+ RNA isolated from the MCF-7 human breast cancer cell line was translated in a cell-free translation system containing [35S]-methionine. The translation products were immunoprecipitated with a 24K monoclonal antibody, and the in vitro synthesis of 24K protein was confirmed by sodium dodecylsulfate (SDS) polyacrylamide gel electrophoresis. The same poly(A)+ RNA was used to construct an oligo(dT)-primed cDNA library in the lambda gt11 expression vector system. The library was screened with a highly specific polyclonal antibody raised against 24K protein purified by immunoaffinity chromatography. Four recombinant clones reacting with the antibody by virtue of antigen expression were isolated and three were used in hybridization-selected translation. Three clones were able to hybridize specifically to a messenger RNA (mRNA) that yielded a Mr 24,000 protein when translated in vitro and analyzed by SDS/polyacrylamide gel electrophoresis. This protein was also immunoprecipitable by the 24K monoclonal antibody. MCF-7 mRNA size fractionated by formaldehyde-agarose gel electrophoresis was transferred to nitrocellulose paper and hybridized to a nick-translated 24K cDNA clone. A single band of hybridization corresponding to a mRNA size of approximately 0.9-1.0 kilobase (kb) was observed.(ABSTRACT TRUNCATED AT 250 WORDS)

Estrogens and growth factors induce the mRNA of the 52K-pro-cathepsin-D secreted by breast cancer cells

The estrogen-induced 52K protein secreted by human breast cancer cells is a lysosomal protease recently identified as a pro-cathepsin D by sequencing several cDNA clones isolated from MCF7 cells (Augereau et al., Mol. Endocr.). Using one of these clones, we detected, in MCF7 cells, a 2.2 kb mRNA whose level was rapidly increased 4- to 10-fold by estradiol, but not by other classes of steroids. Other mitogens, such as epidermal growth factor and insulin, also induced the 2.2 kb mRNA in a dose-dependent manner. Induction with epidermal growth factor was as rapid but was 2- to 3-fold lower than with estradiol. Antiestrogens had no effect on the 52K-cathepsin-D mRNA in MCF7 cells, but became estrogen agonists in two antiestrogen-resistant sublines R27 and LY2. The use of transcription and translation inhibitors and nuclear run-on experiments indicate that estradiol enhances transcription of the 52K-cathepsin-D gene in MCF7 cells.

Estrogen and oncogene mediated growth regulation of human breast cancer cells

The mechanism of growth control in estrogen-dependent and -independent human breast cancer is not completely understood. We have used both hormonally responsive and unresponsive breast cancer cells in culture to study the role of estrogens, oncogenes, and growth factors in their malignant transformation. MCF-7, an estrogen-receptor containing cell line, requires estradiol for tumor formation in vivo and is growth stimulated by estradiol and growth inhibited by antiestrogens in vitro. The growth regulation of MCF-7 cells by estrogens and antiestrogens may be linked to changes in several growth-related enzymes and polypeptide growth factors. Growth-acting polypeptides that are estradiol-inducible include IGF-I, TGF-alpha, and PDGF. Induction of at least two growth-related enzymes, thymidine kinase and dihydrofolate reductase is by transcriptional regulation of their mRNAs. To understand the natural progression of human breast cancer, we have experimentally constructed a hormone-independent fully tumorigenic cell line from the non-tumorigenic MCF-7 cells by introduction of an activated oncogene, v-rasH, into these cells by DNA-mediated gene transfer. Acquisition of the activated ras gene confers hormone autonomy on the previously hormone-dependent tumorigenicity and results in upregulation in secretion of some of the growth factors in amounts compared to estradiol stimulation. The transfected cells also become refractory to growth regulation by estradiol and antiestrogens in culture, although estrogen responses persist. Hormone-independent breast cancer cells in culture show high constitutive growth factor secretion. Direct infusion of some of the authentic growth factors and medium conditioned by estrogen-independent cells into athymic ovariectomized mice suggests a direct involvement of some of the polypeptides in the in vivo progression of tumors by these cells. Thus, aberrant production of growth factors, triggered either by activated oncogenes and estrogen stimulation in hormone-dependent cells, or by increased constitutive production in hormone-independent cells may in an autocrine, paracrine, or endocrine manner be associated with neoplastic growth of breast cancer.

Cloning of cDNA sequences of a progestin-regulated mRNA from MCF7 human breast cancer cells

A cDNA clone corresponding to an mRNA regulated by the progestin R5020, has been isolated by differential screening of a cDNA library from the MCF7 breast cancer cell line, which contains estrogen and progesterone receptors. This probe hybridized with a single species of poly A + RNA of 8-kb molecular weight as shown by Northern blot analysis and could also be used to total RNA preparation. This recombinant clone hybridized specifically to an mRNA coding for a 250,000 daltons protein when translated in vitro. This protein was identical to the 250 kDa progestin-regulated protein that we previously described (Biochem. Biophys. Res. Commun. 121, 421-427, 1984) as shown by immunoprecipitation with specific rabbit polyclonal antibodies. Dose-response curve and specificity studies show that the accumulation of the Pg8 mRNA and that of the 250-kDa protein was increased by 5 to 30-fold following progestin treatment and that this effect was mediated by the progesterone receptor. Time course of induction indicated that the accumulation of mRNA was rapid and preceded that of the protein. This is the first report on a cloned cDNA probe of progestin-regulated mRNA in human cell lines.

An estrogen-regulated protein in normal and malignant endometrium

The presence and distribution of a protein with a mol. wt of 24,000 (24K) was determined in endometrial biopsies from regularly cycling women and in women with endometrial carcinoma. This protein, of as yet unknown function and originally found in a breast cancer cell line, was detected by immunohistochemistry using a monoclonal antibody. In regularly cycling women, the 24K protein began to appear in the glandular epithelium during the late proliferative phase and decreased after ovulation. In contrast, in the superficial epithelium, the strongest immunostaining was observed during the secretory phase. Superficial epithelial cells expressed maximal 24K immunoreactivity around day 21 of the cycle and it was clearly seen in the bulbous projections of the apical cytoplasm. These results suggest that the 24K protein may be a marker for hormonal events in the endometrium during the menstrual cycle. In endometrial carcinoma, 24K was correlated with low tumor histologic grade, few mitotic figures, few nucleoli and a low degree of nuclear pleomorphism. These data suggest that 24K may be a potential marker of tumor differentiation.

Tritiated actinomycin-D staining method: a valuable tool to study oestrogen receptor-induced modifications of transcriptional activity in normal and neoplastic cells

Exposure at 4 degrees C of purified cell nuclei from uterus and hormone-sensitive mammary cancer to their own cytosol preincubated with oestradiol produced a significant increase in their ability to bind [3H] actinomycin D (3H-AMD). This increase did not occur under conditions preventing the transfer of the oestrogen-receptor into the cell nucleus, nor in cancer cell nuclei devoid of oestrogen-receptors. Uterine cytosol preincubated with the strong antioestrogen 4-hydroxytamoxifen did not modify the 3H-AMD binding capacity of the uterine nuclei but significantly suppressed the increase induced by oestradiol. Moreover, ultrastructural study of tumour nuclei revealed that the oestradiol receptor-induced increase was associated with a marked chromatin dispersion. These results strongly suggest that the 3H-AMD staining method is a valuable tool for the assessment of oestrogen receptor-induced modifications of transcriptional activity in normal and pathological tissue as well.

Transfection of v-rasH DNA into MCF-7 human breast cancer cells bypasses dependence on estrogen for tumorigenicity

The natural history of estrogen-responsive breast cancers often involves a phenotypic change to an estrogen-unresponsive, more aggressive tumor. The human breast cancer cell line, MCF-7, which requires estradiol for tumor formation in vivo and shows growth stimulation in response to estradiol in vitro, is a model for hormone-responsive tumors. The v-rasH onc gene was transfected into MCF-7 cells. The cloned MCF-7ras transfectants, which expressed the v-rasH messenger RNA and v-rasH p21 protein (21,000 daltons), were characterized. In contrast to the parental cell line, MCF-7ras cells no longer responded to exogenous estrogen in culture and their growth was minimally inhibited by exogenous antiestrogens. When tested in the nude mouse, the MCF-7ras cells were fully tumorigenic in the absence of estrogen supplementation. Thus, cells acquiring an activated onc gene can bypass the hormonal regulatory signals that trigger the neoplastic growth of a human breast cancer cell line.

Cloning of a gene expressed in human breast cancer and regulated by estrogen in MCF-7 cells

Messenger RNAs (mRNAs) were prepared from MCF-7 breast cancer cells grown in the presence of estradiol. Complementary DNAs (cDNAs) were inserted into pBR322 plasmid and a library of 4400 recombinant bacterial clones was prepared. The clones were screened by in situ differential hybridization with cDNAs prepared from RNAs of MCF-7 cells grown either in the presence or absence of estradiol. Several estrogen-induced or estrogen-repressed clones were identified. One of them corresponded to a relatively frequent mRNA (0.8% of recombinant plasmids) of 650 nucleotides. The concentration of this mRNA was increased by estradiol (half maximal induction approximately 0.05 nM) but not by progesterone, dexamethasone, or dihydrotestosterone. Tamoxifen inhibited the effect of estradiol but was devoid of any agonistic activity when administered separately. This messenger was present in biopsies of breast cancer, but not in endometrium or liver. The cloned cDNA was sequenced. An open reading frame was found corresponding to a protein of less than 100 amino acids. A search of data banks showed no identity or marked similarity to previously published DNA or protein sequences, particularly to those of growth factors evoked by some characteristics of the coded polypeptide. The cloned cDNA probe was used to screen a library of Charon 4A phage containing human genomic fragments. Screening of 300,000 phages yielded two different recombinants hybridizing to the cDNA. Southern blot experiments using DNA from recombinant phage, MCF-7 cells, and placenta showed the presence of a unique gene exhibiting a similar restriction pattern in DNAs from malignant and nonmalignant tissues.

Estrogen-induced 24K protein in MCF-7 breast cancer cells is localized in granules

We have previously reported the production of monoclonal antibodies which detect, by immunohistochemistry, an estrogen-induced protein of molecular weight 24,000 daltons (24K). This protein, of unknown function, has been detected in: a) estrogen receptor-positive breast cancer cell lines but not in receptor-negative lines; b) several human normal estrogen target organs; and c) certain human carcinomas, including breast tumors. To examine the subcellular localization of this 24K estrogen-induced protein, we have done immunohistochemical studies at light and electron microscopic levels using a human breast tumor cell line (MCF-7) grown in vitro and also in nude mice in vivo. MCF-7 cells grown in the ascites fluid of nude mice and processed for paraffin sections showed a defined polarity, and the 24K protein was localized in the apical cytoplasm of the cells. After cytocentrifugation, MCF-7 cells grown in vitro displayed 24K protein mainly confined to large cytoplasmic granules. The presence of 24K protein in cytoplasmic granules was also seen by immunoelectronmicroscopy in MCF-7 cells grown both in vitro and in vivo. The granules had different sizes, shapes, and 24K immunostaining intensity. The morphological evidence suggests that the 24K estrogen-induced protein is secreted from the cells.

Cloning of cDNA sequences of hormone-regulated genes from the MCF-7 human breast cancer cell line

cDNA clones corresponding to a mRNA whose level is rapidly increased by addition of oestradiol to the culture medium have been isolated by differential screening of a cDNA library from the breast cancer cell line MCF-7, which contains oestrogen receptors. Such clones will be useful in studies of the DNA sequences required for hormonal induction and to determine whether expression of the corresponding gene is in any way related to the cancerous state. We have also obtained a cDNA clone for a messenger whose level is apparently decreased by steroid hormones.