An androgen-dependent subclone derived from a mouse mammary tumor, Shionogi carcinoma 115, secretes a heparin-binding growth factor having an apparent molecular weight of 31,000 in response to androgen.

An androgen-dependent cell line denoted SC2G is a clone of an androgen-dependent mouse mammary tumor, Shionogi Carcinoma 115. Fibroblast growth factors (FGFs), epidermal growth factor (EGF) and transforming growth factor-alpha (TGF alpha) are stimulatory for the growth of SC2G cells in the absence of androgen. This clone was found to secrete an androgen-induced growth factor mostly eluting at 1.8 M NaCl on a heparin-Sepharose column. This factor was partially purified by chromatography on two consecutive heparin-Sepharose columns followed by cation-exchanging chromatography on an S-Sepharose column from the chemically defined serum-free medium conditioned by SC2G cells in the presence of androgen. The factor was a heat- and acid-labile cationic protein that was inactivated by reduction with dithiothreitol. On sodium dodecyl sulfate polyacrylamide gel electrophoresis, most of the growth-promoting activity of this factor was found at approx. 31 kDa under non-reduced conditions. Neither neutralizing antibody against basic-FGF nor that against EGF inhibited the growth-promoting activity of this factor in cell culture, suggesting the factor was distinct from basic FGF or EGF. However, the possibility that the factor was another FGF- or EGF-like growth factor was not excluded.     

Action mechanisms of physiological doses of androgen or pharmacological doses of estrogen in growth stimulation of Shionogi carcinoma 115 in mice

Shionogi carcinoma 115 (SC115) had been accepted for 20 yr as an androgen-dependent mouse mammary tumor. However, we recently found that the growth of SC115 tumors in vivo is also stimulated by pharmacological doses of estrogen through estrogen receptor. In the present study, action mechanisms of androgen or high doses of estrogen in the growth stimulation of SC115 were examined using a cloned cell line (SC-3) derived from the SC115 tumor. In serum-supplemented [2% steroid-free fetal calf serum-Eagle's minimum essential medium (MEM)] and serum-free [HAM F-12: MEM (1:1, v/v) containing 0.1% bovine serum albumin] media, testosterone (Test, 10(-9)-10(-6) M) significantly increased both cell number and DNA synthesis of SC-3 cells (by up to 10-fold), whereas oestradiol-17 beta (10(-12)-10(-6) M) had no such effects; the Test-induced growth was completely inhibited by the addition of a 100-fold molar excess of cyproterone acetate (CA). The serum-free medium cultured with SC-3 cells in the presence or absence of 10(-8) M Test was collected [conditioned medium (CM) or conditioned medium without Test (CM-)], and then Test in CM was removed by Gel filtration using Sephadex G-100 or inactivated by the addition of a 100-fold molar excess of CA. In the serum-free culture system, the addition of the CM without Test activity significantly enhanced both number of SC-3 cells and DNA synthesis in the cells, whereas CM(-) had no such effects. The present findings suggest that growth-stimulatory activities of androgen and high doses of estrogen on SC115 cells are mediated by growth factor(s), secreted from SC115 cells through androgen receptor and from some of nontransformed cells through estrogen receptor, respectively.     

Tyrosine kinase inhibitors reduce bcl-2 expression and induce apoptosis in androgen-dependent cells

The signal transduction pathway showing howandrogen withdrawal induces apoptosis in androgen-dependent cells hasnot been clearly understood. In these studies, we focusedon the behavior of tyrosine kinases in androgen-dependent cells andinvestigated its correlation with apoptosis and bcl-2 expression. Weused SC2G, an androgen-dependent mouse mammary carcinoma cell line,which had been cloned from Shionogi Carcinoma 115 (SC115). When SC2G cells were cultured with herbimycin A (HMA), a potent tyrosine kinaseinhibitor, the number of viable cells decreased significantly after 24 h. Terminal deoxyribonucleotidyltransferase-mediated dUTP-biotin nick end labeling and flow cytometric analysis of annexin Vstaining showed that HMA induced apoptosis of SC2G cells. The level ofbcl-2 mRNA in SC2G cells was suppressed by HMA in a dose-dependentmanner on RT-PCR. Preincubation with caspase inhibitors protectedHMA-induced apoptosis of SC2G cells. When a human bcl-2gene was transfected in SC2G cells and overexpressed, SC2G cells seemedto acquire tolerance for HMA. These data indicate that HMA-sensitivetyrosine kinase(s) can regulate apoptosis and inhibit bcl-2 expressionin SC2G mouse androgen-dependent cells. Tyrosine kinase(s) seemed to bea member of signal transduction between androgen receptor activationand bcl-2 expression.

     

Loss of androgen dependency with preservation of functional androgen receptors in androgen-dependent mouse tumor (Shionogi Carcinoma 115).

Shionogi Carcinoma 115 (SC 115) is an androgen-dependent mouse tumor. Chiba Subline 2 (CS 2) is an androgen-independent subline derived from SC 115. CS 2 contains androgen receptors (AR), but is refractory to androgen and does not exhibit androgen-related responses which are observed in SC 115. In the present study the structure and function of AR in SC 115 and CS 2 are examined using cloned cells. There were no gross rearrangements or deletions in the AR genes of these cell lines when compared by Southern blot analysis with the AR gene in the mouse seminal vesicle. SC 115 and CS 2 expressed AR mRNA of normal size. When the cDNA containing DNA- and androgen-binding domains of the AR genes of both cell lines were amplified by polymerase chain reaction, no mutations were found in these regions. SC 115 and CS 2 were transfected with a plasmid containing a long terminal repeat of mouse mammary tumor virus linked to the chloramphenicol acetyltransferase (CAT) gene. Androgen stimulation of these transfectants resulted in equal elevation of CAT activity. These results indicated that the androgen-independent CS 2 contained functionally normal AR which were identical to those in the androgen-dependent parent tumor.     

Expression of the androgen-dependent MMTV-specific orf gene in Shionogi 115 mouse mammary tumor cells

The Shionogi 115 (S115) mouse mammary tumor cells express the MMTV-specific 1.7 kb mRNA (orf) at a high level in the presence of androgens. In lymphoid cells the orf-gene encodes a superantigen which has an important role in establishing self-tolerance but in mammary and breast cancer cells the function of the orf gene is unclear. In the present work we studied the expression of the S115 mammary tumor cell orf sequence and its role in the androgen regulated growth of S115 cells. The cloning and sequencing of the cDNA specific for the 1.7 kb mRNA from the S115 mouse mammary tumor cells revealed a 990 bp DNA sequence with a 99.8% homology to the Mtv-17 proviral strain. There was a difference of only one amino acid (isoleu-tyr) in the coding region. A peptide was synthesized according to the hypervariable C-terminal part of the predicted protein and used to raise a rabbit antiserum. The anti-S115-orf antiserum immunoprecipitated an approximately 45 kDa protein from the metabolically labeled S115 cell lysates. In order to analyze the putative functions of the protein, the orf-sequence was linked to MoMLV-LTR and to the human ß-actin promoter in the mammalian expression vectors pLTRpoly and pHßAPr-1-neo, respectively, and transfected into NIH3T3 and S115 cells. NIH3T3 transfectants expressing orf mRNA did not show a transformed phenotype in vitro. The S115 orf transfectants proliferated somewhat more slowly than the vector transfected control cells in cell culture, both in the presence or absence of androgen, but there was no obvious change in the phenotype of S115 cells or in expression of the fibroblast growth factor 8 (FGF-8). This factor is activated by Mtv-6 integration and mediates androgen effects in these cells. Unexpectedly, however, the formation of tumors by S115 orf cells in nude mice was considerably prolonged and tumor growth retarded when compared with vector transfected control or parent S115 cells. The results suggest that MMTV-orf can be functional in breast cancer cells but the mechanism of the growth repressive effect in mammary tumor remains to be analyzed.     

Three cell lines showing androgen-dependent, -independent,and-suppressed phenotypes,established from a single tumor of androgen-dependent shionogi carcinoma 115

Summary We investigated the heterogeneity of cells in terms of androgen responsiveness within a single tumor mass of Shionogi carcinoma SC-115 showing androgen-dependent growth. After cloning of the tumor by the limiting dilution method in the presence of androgen, we isolated 40 clones at random. Twenty-two clones required androgen for growth (androgen-dependent phenotype), 16 did not (androgen-independent phenotype), and the remaining two clones showed growth inhibition when androgen was added (androgen-suppressed phenotype). In addition, 22 androgen-dependent clones showed heterogeneity in growth factor sensitivity in the absence of androgen. All clones were sensitive to both acidic and basic fibroblast growth factor (FGF), 7 of 22 clones were sensitive to epidermal growth factor (EGS) and transforming growth factor (TGF)-α, and 2 of 22 clones were sensitive to TGF-β. This preexisting heterogeneity may be partly responsible for the growth of androgen-dependent tumor under hormone-deprived circumstances. Three typical clones, SC2G, SC1G, and SC4A, were selected from androgen-dependent, -independent, and-suppressed phenotypic groups, respectively. These clones, as well as original solid tumors, were found to produce heparin-binding growth factors of heterogeneous elution positions. The molecular nature of these growth factors is not yet known. Neither anti-basic FGF antibody nor anti-EGF antibody inhibited the cell growth when added in cell culture, suggesting the factors were distinct from basic-FGF and EGF.     

Effect of androgen on ornithine decarboxylase activity in androgen-dependent mouse mammary tumor (Shionogi Carcinoma 115) and its androgen-independent subline (CS 2)

The activity of ornithine decarboxylase in androgen-dependent mouse mammary tumor (Shionogi Carcinoma 115) was reduced to 25% by castration of tumor-bearing mice and restored to the normal level 12 h after administration of testosterone or 5 alpha-dihydrotestosterone. Administration of estradiol-17 beta to the tumor-bearing castrated mice also stimulated the enzyme activity while progesterone and cortisol had little effect. On the other hand, the enzyme activity was affected by neither castration nor androgen injection to CS 2, which is a subline of SC 115 and completely independent of androgen for growth. The inhibition of ornithine decarboxylase activity in SC 115 by injecting alpha-difluoromethylornithine did not affect the enhancement of RNA polymerase I activity by androgen, showing independent elevation of the levels of the two enzymes by androgen.     

Heparin inhibits autocrine stimulation but not fibroblast growth factor stimulation of cell proliferation of androgen-responsive Shionogi carcinoma 115.

An androgen-responsive cloned cell line (SC-3) derived from Shionogi carcinoma 115 (SC115) has been shown to secrete fibroblast growth factor (FGF)-like peptide in response to androgen, which binds to FGF receptor and promotes the proliferation of SC-3 cells in an autocrine mechanism. Since the androgen-induced autocrine factor has a property to bind heparin, we examined the effects of heparin on the growth of SC-3 cells. Heparin was found to exhibit significant inhibition of testosterone-induced growth in a concentration-dependent manner: Approximately 50% inhibition was found at a concentration of 0.1 micrograms/ml. DNA synthesis of SC-3 cells induced by testosterone was also inhibited strongly by heparin, and less strongly by heparan sulfate and dermatan sulfate. Proliferation of SC-3 cells induced by acidic (a) or basic (b) FGF appeared not to be modulated by heparin. In contrast, heparin efficiently blocked DNA synthesis stimulated with androgen-induced growth factor in the conditioned medium from testosterone-treated cells. These results indicate that heparin inhibits autocrine loop in SC-3 cells induced by androgen. Thus, the autocrine growth factor possesses a different characteristic from aFGF and bFGF in that its bioactivities are negatively modulated by the glycosaminoglycan.     

Secretion of a new growth factor, smooth muscle cell derived growth factor, distinct from platelet derived growth factor by cultured rabbit aortic smooth muscle cells

In attempts to determine the mechanism of proliferation of arterial smooth muscle cells (SMC) in intimal atheromatous lesions, autocrine secretion of growth factors by SMC has recently received much attention. Here we report a new growth factor named smooth muscle cell derived growth factor (SDGF). Cultured rabbit medial SMC secreted SDGF for 1 week during their incubation in serum-free media only after at least 4 passages. SDGF differed from platelet derived growth factor (PDGF) physicochemically, immunologically, and biologically. The properties of SDGF also seemed different from those of other known growth factors that stimulate the proliferation of mesenchymal cells.     

Growth-stimulatory effects of androgen, high concentration of glucocorticoid or fibroblast growth factors on a cloned cell line from Shionogi carcinoma 115 cells in a serum-free medium

The effects of various kinds of growth factors or steroids on the proliferation of Shionogi carcinoma 115 (SC115) cells were investigated in cell culture. In a serum-free medium [Ham's F-12:Eagle's minimum essential medium (1:1, vol/vol) containing 0.1% bovine serum albumin], the proliferation of SC-3 cells (a cloned cell line from SC115 cells) estimated by [3H]thymidine incorporation into DNA and cell number reached a plateau at 10(-8) M testosterone (up to 200-fold), 10(-7) M dexamethasone (up to 30-fold) or 1 ng/ml of fibroblast growth factors (FGF; up to 50-fold). However, the proliferation in the serum-free medium was not significantly stimulated by the addition of low to very high concentrations of progesterone, oestradiol-17 beta, epidermal growth factor, platelet derived growth factor or insulin; transforming growth factor beta slightly stimulated the growth (up to 5-fold) but markedly inhibited the growth stimulation induced by testosterone. Furthermore, an epithelial appearance of SC-3 cells grown in the absence of growth factors or steroids was changed to a fibroblast-like appearance only by the addition of testosterone, high concentrations of dexamethasone or FGF. By investigating various kinds of growth factors or steroids, the present study demonstrates that androgen, high concentration of glucocorticoid or FGF alone significantly stimulates the proliferation of SC-3 cells with a change of morphology in the serum-free medium.     

Growth control of androgen-dependent Shionogi carcinoma cells by growth factor(s) produced from androgen-independent Shionogi carcinoma cells in a paracrine mechanism

Androgen-dependent (SC3) and -independent (CADO21) cloned cell lines were established from androgen-dependent mouse mammary tumor (Shionogi carcinoma 115). The effects of conditioned medium (CM) collected from SC3 and CADO21 cells on the anchorage-independent growth of SC3 cells in soft agar were studied. CM prepared from SC3 cells in the absence of testosterone was unable to stimulate the growth of SC3 cells, whereas CM prepared from SC3 cells in the presence of 10(-8) M testosterone stimulated the growth of SC3 cells in a concentration-dependent manner (21 colonies at 10% and 48 colonies at 20%) and this growth-stimulatory effect was not inhibited by 10(-6) M cyproterone acetate. CM prepared from CADO21 cells in the absence of testosterone was also able to stimulate the SC3 cell growth in a concentration-dependent manner (9 colonies at 10% and 19 colonies at 20%). These results suggest that the growth of androgen-dependent SC3 cells is stimulated by androgen-induced growth factor(s) produced from the same cells (autocrine mechanism) and is also regulated by autonomous growth factor(s) produced from androgen-independent cancer cells formed from the dependent cancer cells (paracrine mechanism). A suggested possible mechanism of the progression from androgen-dependent to -independent growth of cancer cells is also discussed.     

Androgen-induced growth factor and its receptor: Demonstration of the androgen-induced autocrine loop in mouse mammary carcinoma cells

SC-3 cells derived from mouse mammary carcinoma (Shinogi carcinoma 115) exhibit remarkable growth enhancement and cell morphology change in response to androgen stimuli. These events are mediated through an androgen-induced growth factor (AIGF). Amino acid sequence deduced from cDNA reveals that AIGF has 215 amino acids with a signal peptide and scattered regions homologous to fibroblast growth factor (FGF) family proteins. The biological ability of AIGF to stimulate SC-3 cell growth is inhibited by heparin or suramin. More importantly, antisense oligodeoxynucleotide of AIGF can block androgen-induced growth of SC-3 cells. Upon synthesis under the control of androgen, AIGF is immediately secreted into the extracellular space without intracellular accumulation. At the early phase (18–24 h) of androgen stimulation, however, AIGF is mainly associated with the glycosaminoglycan on the cell surface or extracellular matris. In addition, treatment of SC-3 cells with sulfation blocker (chlorate) or heparitinase results in the abolishment of their ability to respond to androgen or AIGF, indicating that heparan sulfate has important roles for condensing AIGF on or near cell surface as well as potentiating the biological activity of AIGF. Then, AIGF can bind to the FGF receptor. Northern blot analysis and cDNA cloning indicate that SC-3 cells predominantly express the FGF receptor 1 with some altered amino acid sequences. Transfection of expression vectors of AIGF and this variant from of FGF receptor 1 into FGF receptor-negative myoblast cells (L 6 cells) confirms that a variant from of FGF receptor 1 is a receptor of AIGF. These results clearly demonstrate that an autocrine mechanism is operating in androgen-induced growth of SC-3 cells.     

Androgen receptor, testosterone uptake and karyotype in androgen-dependent mouse tumor (SC 115) and its androgen-independent subline (CS 2)

Content of androgen receptor, retention of injected testosterone and karyotype of SC 115, androgen-dependent tumor, were compared with those of CS 2, an androgen-independent subline derived from SC 115. Although Bmax was less than that of SC 115, androgen receptor was present in the cytosol and the nuclear extract from CS 2. To examine the ability for androgen retention, a large amount of testosterone was injected into tumor-bearing mice, and the amount of androgen in the crude nuclear and postnuclear fractions of tumors was compared. In both fractions, retention of injected androgen was higher in the SC 115 than in the CS 2. Since most of the injected testosterone was not metabolized in the tissues and the injection of testosterone 5 alpha-reductase inhibitor showed no significant influence on the growth rate of the SC 115, intracellular active androgen was assumed to be testosterone in these tumor cells. As the CS 2 was tetraploid, the androgen independency of the CS 2 seems to be related to chromosomal changes.     

Steroid hormone responsive cells in serum-free culture--analyses of hormone-mediated gene expression and cell growth

Steroid hormone-responsive cell lines were clones from mouse mammary cancer (Shionogi Carcinoma 115) and Leydig cell tumor. SC-3 and SC-4 cells from Shionogi Carcinoma were androgen-responsive and -unresponsive in a serum-free medium, respectively. SC-3 cells secreted FGF-like growth factor as well as 24 K glycoprotein in response to androgen stimuli. B-1 and B-1F cells from mouse Leydig cell tumor were growth-stimulated in a serum-free medium by estrogen, androgen or retinoic acid. Transfection of ERE-TK-CAT gene into B-1F cells revealed that both estrogen and retinoic acid activated the CAT activity. In addition, the presence of corresponding receptors for steroid hormones or retinoic acid was demonstrated by hormone binding assays and/or Northern blot analysis. Thus, these serum-free culture systems seem to be very useful for analysing hormone action mechanisms in vitro.     

Biological actions of the epidermal growth factors-like domain peptides of mouse schwannoma-derived growth factor and human amphiregulin.

Several members of the epidermal growth factor (EGF) family of growth factors that contain EGF-like units at their carboxy portion have been isolated and characterized. Schwannoma-derived growth factor (SDGF) and amphiregulin (AR) are members of this family. SDGF has high sequence homology to AR, and is known to be not only a potent mitogen for astrocytes and fibroblasts but also a neurotrophic factor. We previously confirmed that the synthetic EGF-like peptides SDGF(38-80) and AR(44-84), corresponding to the EGF-like domain of mouse SDGF and human AR, respectively, formed similar disulfide bond patterns to that of EGF. In the present study, we further investigated the biological actions of these two EGF-like peptides on several cultured cell lines. We found that SDGF(38-80) and AR(44-84) have weak mitogenic activity in NIH/3T3 cells and weak binding affinity to the EGF receptor on the surface of A431 cells compared with EGF. However, SDGF(38-80) and EGF induced short neurite outgrowth in PC12 h cells, a subclone of PC12 cells, at 100 nM. In addition, a significant increase in acetylcholinesterase (AChE) activity induced by SDGF(38-80) was observed at a concentration similar range to that of EGF, which is known as a differentiation marker of these cells. The effect of AR(44-84) in PC12 h cells was weaker than those of SDGF(38-80) and EGF, but the AChE activity was significantly increased by the addition of 100 nM AR(44-84), which did not stimulate NIH/3T3 cell growth. These results also suggest that SDGF(38-80) and AR(44-84) may be effective for neuronal differentiation rather than proliferation.     

Progression to steroid autonomy in S115 mouse mammary tumor cells: role of DNA methylation

Although monoclonal in origin, mammary tumors acquire a marked heterogeneity of cell phenotypes, including a mixture of steroid hormone-sensitive cells and insensitive cells. We describe here long- term studies on the effects of androgen withdrawal on cloned androgen- responsive S115 mouse mammary tumor cells as a model system to investigate mechanisms by which tumor cells lose their steroid sensitivity. In the prolonged absence of androgen, the cells lost hormone-sensitive parameters reproducibly, including loss of proliferative response, saturation density response, cell morphology response, and mouse mammary tumor virus long terminal repeat (MMTV-LTR)- related RNA. These experiments have demonstrated that when deprived of hormone in the long term, a clone of responsive cells gives rise reproducibly to a population of unresponsive cells in an ordered series of phenotypic changes. At the time when the cells lost all androgen response in terms of cell biology and MMTV-LTR-RNA, increased methylation of MMTV-LTR sequences in the DNA was detected. Thereafter recovery of androgen sensitivity has not been achieved in any of these parameters. The possible role of de novo DNA methylation in the progression to androgen autonomy of S115 cells is discussed.     

Effect of suramin on growth of androgen-responsive mouse tumor (Shionogi carcinoma 115) and its autonomous subline (Chiba subline 2)

Suramin has been shown to inhibit the binding of various growth factors to their receptors. Shionogi Carcinoma 115 cells (SC 115 cells) and Chiba Subline 2 cells (CS 2 cells) are clones of an androgen-responsive mouse tumor cell and its autonomous subline, respectively. Since the growth of SC 115 and CS 2 cells are assumed to be regulated by their own fibroblast growth factor (FGF)-like growth factors, the present study was undertaken to examine the effect of suramin on these cells. Suramin inhibited the growth of SC 115 and CS 2 cells in a dose dependent manner. The inhibition of suramin was reversible up to 50 micrograms/ml. Suramin reversibly changed the shape of these cells from fibroblast-like to polygonal and epithelial-like ones, and inhibited 3H-thymidine incorporation into these cells which was evoked by acidic and basic FGFs, and conditioned medium obtained from CS 2 cells. The binding of 125I-basic FGF to SC 115 and CS 2 cells was inhibited by suramin. However, suramin had no effect on growth factor production and the hst-1 gene expression on CS 2 cells. In conclusion, suramin inhibited the autocrine and paracrine growth of SC 115 and CS 2 cells by blocking the binding of autocrine growth factors to their receptors.     

The effect of recombinant human tumour necrosis factor on growth and macromolecular synthesis of human epithelial cells

We have studied the effect of recombinant human tumour necrosis factor (rHuTNF) on growth and macromolecular synthesis in a range of normal and transformed epithelial cell types. Tumour necrosis factor did not affect the growth of normal human mammary epithelial cells, but its growth-inhibitory action on the SV40-transformed human mammary epithelial cell line HBL-100 increased with passage number in association with a progression of malignant phenotype. However, of two lines derived from nude mouse tumours of HBL-100 lines, one, HBLT-12, did not respond to rHuTNF, and the other, HBLT-11 showed some growth stimulation by high dose rHuTNF. Macromolecular synthesis in HBLT-11 was not affected by rHuTNF. The breast cancer cell lines MCF-7 and BT20 were sensitive to the cytotoxic effects of rHuTNF. In MCF-7 a gradual decrease in RNA and DNA synthesis occurred over 48 h, ending with an accumulation of cells in S and G2 phase of the cell cycle and cell death. The addition of alpha- or gamma-interferon increased, but did not accelerate the cytotoxicity of rHuTNF.