UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of this study was to investigate whether breast cancer growth in vivo could be due to a failure in the activation of TGF-beta 1, a growth factor which has been shown to affect the development of normal breast tissue. Tissue samples of 40 breast carcinomas and the normal adjacent tissue from 37 (henceforth referred to as 'adjacent tissue'), as well as 13 specimens of benign lesions, were included in this study. The specimens were used in vitro to produce conditioned medium (CM), and this was examined for TGF-beta 1 activity by measuring growth inhibition of the mink lung epithelial cell line CCL-64. Immunoblotting and electrophoresis were used to detect the presence of TGF-beta 1 in CM and homogenised tissue samples. We demonstrated that the majority of TGF-beta 1 in breast cancer conditioned medium was biologically active, in direct contrast to CM prepared from benign disease specimens. Furthermore, active TGF-beta 1 was also identified in CM prepared from adjacent tissue, suggesting an important early role for this growth factor in the spread of this disease. Three distinct breast cancer related (BCR) molecular weight species of TGF-beta 1 (12.5/25 kDa, 50 kDa and 95 kDa) were identified. Both the 50 kDa and 95 kDa bands immunoprecipitated by an anti-TGF-beta 1 antibody were also immunoreactive with anti-TGF-beta 1 binding protein antibodies suggesting that the 50 kDa band may comprise at least part of the previously described small latent complex of TGF-beta 1. However, using the CCL-64 cell assay, we were able to demonstrate that the 50 kDa TGF-beta 1 BCR protein was biologically active whereas the large (95 kDa) TGF-beta 1 BCR latent complex protein was not. Adjacent tissue was more likely to contain the 50 kDa form than the tumour tissues (P < 0.05). Similarly, the 50 kDa molecule was also more common in patients who had oestrogen receptor (ER) negative tumours (compared with ER positive patients; P < 0.05) and in those who had received tamoxifen treatment prior to surgery (P < 0.01). In all of these cases, the increase in the incidence of the small active complex form was accompanied by a decrease in the incidence of the high molecular weight complex (95 kDa). We confirmed that, in vitro, the 95 kDa TGF-beta 1 BCR can be proteolytically cleaved to yield a 50 kDa TGF-beta 1 BCR. Finally, we observed a correlation between the presence of the 50 kDa complex protein and reduced levels of plasminogen activator (PA), which was significant in ER negative patients (P < 0.05) and tamoxifen-pretreated patients (P < 0.01). This suggests that the secretion of this active TGF-beta 1 protein may provide breast tumours with a mechanism whereby they can escape oestrogen dependence, and may provide an explanation for the common problem of tamoxifen resistance.
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PMID:Multiple forms of TGF-beta 1 in breast tissues: a biologically active form of the small latent complex of TGF-beta 1. 891 Nov 19

MCF-7 (estrogen receptor positive--ER+) and MDA-MB-231 (estrogen receptor negative--ER-) are human breast cancer cell lines which express functional thyroid hormone receptors (c-erb A alpha1 and c-erb beta1) as indicated by stimulation of mitochondrial alpha-glycerophosphate dehydrogenase. In MCF-7, mimicking E2, T3 stimulated growth in a dose-dependent (10(10) M - 10(-8) M) manner, induced the expression of progesterone receptor and growth factor TGFalpha mRNAs and inhibited that of TGFbeta mRNA; T3 also increased progesterone binding and LDH5 isozyme activities. None of these effects were observed in (ER-) MDA-MB-231 cells. 10(-6) M tamoxifen (TAM) reverted growth stimulation, suppressed progesterone receptor and TGFalpha mRNA induction and restored TGFbeta mRNA to control levels in T3-treated MCF-7 cells. That T3 is acting in MCF-7 cells via its binding to ER is suggested by the immunoprecipitation of pre-bound 125I-T3 from MCF-7 nuclear extracts by an ER-specific monoclonal antibody and by the displacement of 3H-estradiol binding to ER by radioinert T3.
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PMID:Triiodothyronine mimics the effects of estrogen in breast cancer cell lines. 901 Mar 19

To understand better the antiestrogen-resistant phenotype that frequently develops in breast cancer patients receiving tamoxifen, we cultured MCF-7 breast cancer cells long-term (>1 yr) in the presence of the antiestrogen trans-hydroxytamoxifen (TOT) to generate a subline refractory to the growth-suppressive effects of TOT. This subline (designated MCF/TOT) showed growth stimulation, rather than inhibition, with TOT and diminished growth stimulation with estradiol (E2), yet remained as sensitive as the parental cells to growth suppression by another antiestrogen, ICI 164,384. Estrogen receptor (ER) levels were maintained at 40% of that in parent MCF-7 cells, but MCF/TOT cells failed to show an increase in progesterone receptor content in response to E2 or TOT treatment. In contrast, the MCF/TOT subline behaved like parental cells in terms of E2 and TOT regulation of ER and pS2 expression and transactivation of a transiently transfected estrogen-responsive gene construct. DNA sequencing of the hormone binding domain of the ER from both MCF-7 and MCF/TOT cells confirmed the presence of wild-type ER and exon 5 and exon 7 deletion splice variants, but showed no point mutations. Compared to the parental cells, the MCF/TOT subline showed reduced sensitivity to the growth-suppressive effects of retinoic acid and complete resistance to exogenous TGF-beta1. The altered growth responsiveness of MCF/TOT cells to TOT and TGF-beta1 was partly to fully reversible following TOT withdrawal for 16 weeks. Our findings underscore the fact that antiestrogen resistance is response-specific; that loss of growth suppression by TOT appears to be due to the acquisition of weak growth stimulation; and that resistance to TOT does not mean global resistance to other more pure antiestrogens such as ICI 164,384, implying that these antiestrogens must act by somewhat different mechanisms. The association of reduced retinoic acid responsiveness and insensitivity to exogenous TGF-beta with antiestrogen growth resistance in these cells supports the increasing evidence for interrelationships among cell regulatory pathways utilized by these three growth-suppressive agents in breast cancer cells. In addition, our findings indicate that one mechanism of antiestrogen resistance, as seen in MCF/TOT cells, may involve alterations in growth factor and other hormonal pathways that affect the ER response pathway.
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PMID:Response-specific antiestrogen resistance in a newly characterized MCF-7 human breast cancer cell line resulting from long-term exposure to trans-hydroxytamoxifen. 901 Mar 27

Angiogenesis is a significant prognostic factor in breast cancer, but the factors that control angiogenesis in vivo are not well defined. Multiple angiogenic polypeptides are known, and we have determined the expression of seven of these in primary human breast cancers; the relationship of expression to estrogen receptor and vascular density was also examined. Vascular endothelial growth factor (VEGF) and its four isoforms (121, 165, 189, and 206 amino acids), transforming growth factor (TGF)-beta1, pleiotrophin, acidic and basic fibroblast growth factor (FGF), placental growth factor, and thymidine phosphorylase (platelet-derived endothelial cell growth factor) were quantitated by RNase protection analysis. beta-FGF was also measured by ELISA. The estrogen receptor (ER), epidermal growth factor receptor, and vascular density were analyzed in 64 primary breast cancers. All tumors expressed at least six different vascular growth factors. VEGF was most abundant, and the transcript for the 121-amino acid form predominated. Other angiogenic factors expressed at high levels were thymidine phosphorylase and TGF-beta1. Expression of most of the angiogenic factors did not correlate with that of ER or vascular density. However, thymidine phosphorylase did, with a correlation coefficient of 0.3 (P = 0.03). There were significant associations of pleiotrophin with acidic FGF expression (P = 0.001) and TGF-beta with platelet-derived endothelial cell growth factor expression (P = 0.001). Thus, angiogenesis may involve a coordinate regulation of some vascular growth factors. High VEGF expression correlated with poor prognosis in univariate analysis (P = 0.03), as did ER and epidermal growth factor receptor expression. Basic FGF was also assessed by ELISA and was more highly expressed in tumors than normal breast tissues (median, 346 microg/ml cytosol; range, 54-1323 versus median, 149; range, 32-509; P = 0.01). Implications for therapy are that broad spectrum agents that block features common to these factors may be useful (e.g., antagonism of heparin-binding activity agents), because so many angiogenic factors are expressed. Inhibiting endothelial migration or agents directly toxic to endothelium would be of value in a combined approach to therapy.
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PMID:Expression of the angiogenic factors vascular endothelial cell growth factor, acidic and basic fibroblast growth factor, tumor growth factor beta-1, platelet-derived endothelial cell growth factor, placenta growth factor, and pleiotrophin in human primary breast cancer and its relation to angiogenesis. 904 Dec 2

Eighty nine primary breast cancers were investigated for the expression of TGF-beta 1 and ER mRNA using PCR of reverse transcribed RNA. PCR products were validated using Southern blots and hybridization with radiolabelled cDNA probes. TGF beta 1 mRNA was found to be expressed in 56/89 (63%) of the breast cancers while ER mRNA was expressed in 23/89 (26%) of the tumours. Using chi-square analysis TGF-beta mRNA expression was found to correlate significantly with ER mRNA expression (p < 0.001), in that virtually all tumours that expressed ER mRNA co-expressed TGF beta 1. In tumours that were ER mRNA negative, TGF beta 1 expression was more variable. These results suggest that during tumour progression, ER expression is lost more frequently than is growth factor expression.
Breast Cancer Res Treat 1997 Jan
PMID:TGF-beta 1 mRNA expression in clinical breast cancer and its relationship to ER mRNA expression. 913 9

Previous studies have shown that the transcription of the TGF-beta 2 gene is controlled by at least one negative and two positive regulatory regions in differentiated cells derived from both embryonal carcinoma cells and embryonic stem cells. The use of TGF-beta 2 promoter/reporter gene constructs has also identified a CRE/ATF motif near the TATA box that appears to heavily influence the transcription of the TGF-beta 2 gene. In this study, two choriocarcinoma cell lines, JAR and JEG-3, and the breast cancer cell line, MCF-7, were used to determine whether differences exist in the transcriptional regulation of the TGF-beta 2 gene. We demonstrated that both similarities and differences exist in the transcriptional regulation of this gene. Common to all cells examined to date, the positive regulatory region just upstream of the TATA box contains an essential CRE/ATF motif that binds at least one transcription factor, ATF-1, in gel mobility shift assays. However, we did not detect ATF-2 binding to this site with any of the nuclear extracts used. We also determined that the effect of the region between -187 and -78 (relative to the transcription start site) is cell type dependent. Previous studies have shown that this region acts to reduce the activity of the TGF-beta 2 promoter in differentiated cells derived from embryonal carcinoma cells and embryonic stem cells. In direct contrast, this region acts as a strong positive regulatory region in JAR, JEC-3, and MCF-7 cells. The mechanisms responsible for these differing effects remain to be established. Interestingly, this region does not appear to contain sequence motifs that bind known transcription factors. Thus, this region is likely to bind one or more novel transcription factors or contain novel recognition sites for known transcription factors.
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PMID:Transcriptional regulation of the TGF-beta 2 gene in choriocarcinoma cells and breast carcinoma cells: differential utilization of Cis-regulatory elements. 915 46

We demonstrate herein the ability of transforming growth factor-beta-2 (TGFbeta2) to potently activate extracellular signal-regulated kinase 2 (ERK2) in the highly TGFbeta-sensitive breast cancer cell (BCC) line Hs578T. The ERK2 isoform was activated by 3-fold within 5 min of TGFbeta2 addition to Hs578T cells. However, TGFbeta2 only slightly activated ERK2 (1.5-fold) in the partially TGFbeta-responsive BCC line MDA-MB-23 1. The magnitude of the difference in activation of ERK2 by TGFbeta2 in the two cell lines paralleled the difference in the IC50 values for TGFbeta inhibition of DNA synthesis; the IC50 value in the MDA-MB-231 cells was 32-fold greater than that in the Hs578T cells. Further, our data demonstrate that TGFbeta2 activated the stress-activated protein kinase/Jun N-terminal kinase (SAPK/JNK) type of mitogen-activated protein kinases (MAPKs); maximal induction levels were 2.5-fold above basal values and were attained at 30 min after TGFbeta2 treatment. Transient co-transfection of a luciferase reporter construct (3TP-Lux) containing three AP-1 sites and the plasminogen activator inhibitor-1 (PAI-1) promoter, in conjunction with a construct that directs expression of a dominant-negative mutant ERK2 (TAYF) protein, did not block the ability of TGFbeta to induce AP-1 or PAI-1 activity. In contrast, TAYF ERK2 was able to block EGF and insulin-induced 3TP-Lux-reporter activity. These results indicate that in these BCCs, the activation of ERK2 by TGFbeta is more tightly linked to the ability of TGFbeta to inhibit DNA synthesis than to the ability to stimulate promoter regions important for TGFbeta production and control of the extracellular matrix. In addition, this is the first demonstration that TGFbeta can activate the SAPK/JNK type of MAPK in TGFbeta-sensitive human BCCs.
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PMID:TGFbeta regulation of mitogen-activated protein kinases in human breast cancer cells. 923 30

The rates of the stimulative, insensitive, and inhibitive responses to 10(-2) nM E2 in sixty clinical breast cancer cases were 24.2%, 45.2%, and 30.6%, respectively. We then examined the expression of mRNAs of such cytokines as TNF-alpha, TGF-alpha, EGF, and TGF-beta, in cancer tissue specimens from these three different groups. In MCF-7 showing an E2-stimulative response, the expression of mRNAs of both TNF-alpha and TGF-alpha were suppressed by 10(-2) nM E2, but these same expressions in KSE-1 showing an E2 stimulative response were enhanced by E2. The mRNA expression of TGF-beta in these two cell lines was suppressed by 10(-2) nM E2, but that of EGF was enhanced. In clinical cases showing an E2-inhibitive response, the mRNA expression ratio of TNF-alpha/TGF-beta was above 2.5, but under 2.5 in E2-uninhibitive response cases. The mRNA expression ratio of TGF-alpha/TGF-beta was over 1.8 in the E2-inhibitive responsive cases, but under 1.8 in the E2-uninhibitive response cases. The mRNA expression ratio of EGF/TGF-beta did not show any regular tendency in three groups showing a different E2-response in vitro. Based on in vitro results and mRNA expression in clinical cases, the cytokine expression for E2-inhibitive cancer cells differed from those of E2-stimulative and -insensitive cells. Therefore, E2-inhibitive cancer cells are thus considered to possibly possess a characteristic growth regulation which is different from that for E2-uninhibitive cancer cells.
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PMID:In vivo growth regulation by cytokine in breast cancer cells showing an estradiol-inhibitive response in vitro. 925 79

The expression of aromatase is tissue-specifically regulated through the alternative use of multiple exons 1 and promoters. We analysed expression levels of aromatase mRNA, preferential utilization of multiple exon 1 of the human aromatase gene, and transcriptional regulation of their multiple promoters in breast cancer tissues by newly developed fluorometric methods. The expression levels of aromatase mRNA in breast cancer tissues were significantly higher than those in regions distal to tumours or in non-malignant breast tissues. Aromatase mRNA in these non-malignant tissues was transcribed from skin fibroblast/fetal liver-specific exon 1 (exon 1b) of the aromatase gene. However, in half the cases of breast cancer patients, the utilization of multiple exons 1 in the aromatase mRNA changed from exon 1b to ovary-specific exon 1 (exon 1c) in their breast tissues. Aromatase mRNA in HepG2 cells as well as in non-malignant breast tissues was also transcribed from exon 1b. Then, the promoter region responsible for the exon 1b-specific utilization in HepG2 cells was examined by fluorometric promoter assay using a new reporter containing four major alternative exons 1 and promoters. The results suggested that transcriptional elements determining preferential utilization of exon 1b in the cells was located on the promoter region of exon 1b from -255 to -1145. To investigate further the cause of the elevation of aromatase mRNA and the switching from exon 1b to exon 1c in the transcription of the aromatase gene, the effects of various factors on the expression levels and preference of alternative exons 1 were examined in cultured adipose stromal cells from breast tissues. Aromatase mRNA was transcribed from exon 1b in the stromal cells, cultured in the presence of calf serum. However, removal of the serum or the addition of forskolin or phorbol ester (TPA) induced a rapid elevation of aromatase mRNA and the switching of aromatase transcripts to exon 1c in the cells, whereas TGFbeta almost abolished the expression of aromatase mRNA. Because co-culture of cancer cells such as MCF-7 increased aromatase mRNA of the cells cultured in the serum-containing medium, it is possible that cancer cells secret stimulatory factors acting like forskolin or TPA, or consume serum inhibitory factors acting like TGFbeta, consequently causing levels of aromatase mRNA to increase.
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PMID:Aberrant expression of aromatase in breast cancer tissues. 936 88

This laboratory has previously identified a novel TGF-beta inducible early gene (TIEG) in human osteoblasts [Subramaniam et al. (1995): Nucleic Acids Res 23:4907-4912]. Using TIEG specific polyclonal antibody and immunoprecipitation methods in normal human fetal osteoblast cells (hFOB cells), we have now demonstrated that TIEG encodes a 72-kDa protein whose levels are transiently increased at as early as 2 h of TGF-beta treatment. Polarized confocal microscopic analysis of hFOB cells shows a nuclear localized TIEG protein in untreated cells under the conditions described under Methods. Interestingly, the levels of TIEG protein in the nuclei increase when the cells are treated with TGF-beta 1 for 2 h. In contrast, similar analyses of untreated human keratinocytes show a cytoplasmic localized TIEG protein that appears to be translocated to the nucleus after H2O2 treatment. Additional immunohistochemical studies have demonstrated that TIEG protein is expressed in epithelial cells of the placenta, breast, and pancreas, as well as in osteoblast cells of bone and selected other cells of the bone marrow and cerebellum with some cells showing a cytoplasmic localization and others a nuclear localization. All cells of the kidney display negative staining for this protein. Interestingly, a stage specific expression of TIEG protein is found in a dozen breast cancer biopsies, using immunohistochemistry. The cells in normal breast epithelium displays a high expression of TIEG protein, those in the in situ carcinoma display less than one-half of the levels, and those in the invasive carcinoma show a complete absence of the TIEG protein. TIEG has been localized to chromosome 8q22.2 locus, the same locus as the genes involved in osteopetrosis and acute myeloid leukemia and close to the c-myc gene locus and a locus of high polymorphism in cancer biopsies. The correlation between the levels of TIEG protein and the stage of breast cancer, its prime location in human chromosome 8q22.2, and past studies with pancreatic carcinoma, suggests that TIEG may play a role in tumor suppressor gene activities, apoptosis, or some other regulatory function of cell cycle regulation.
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PMID:Tissue, cell type, and breast cancer stage-specific expression of a TGF-beta inducible early transcription factor gene. 944 78

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