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)

Breast cancer is a genetically and clinically heterogeneous disease, and the contributions of different target cells and different oncogenic mutations to this heterogeneity are not well understood. Here we report that mammary tumors induced by components of the Wnt signaling pathway contain heterogeneous cell types and express early developmental markers, in contrast to tumors induced by other signaling elements. Expression of the Wnt-1 protooncogene in mammary glands of transgenic mice expands a population of epithelial cells expressing progenitor cell markers, keratin 6 and Sca-1; subsequent tumors express these markers and contain luminal epithelial and myoepithelial tumor cells that share a secondary mutation, loss of Pten, implying that they arose from a common progenitor. Mammary tumors arising in transgenic mice expressing beta-catenin and c-Myc, downstream components of the canonical Wnt signaling pathway, also contain a significant proportion of myoepithelial cells and cells expressing keratin 6. Progenitor cell markers and myoepithelial cells, however, are lacking in mammary tumors from transgenic mice expressing Neu, H-Ras, or polyoma middle T antigen. These results suggest that mammary stem cells and/or progenitors to mammary luminal epithelial and myoepithelial cells may be the targets for oncogenesis by Wnt-1 signaling elements. Thus, the developmental heterogeneity of different breast cancers is in part a consequence of differential effects of oncogenes on distinct cell types in the breast.
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PMID:Evidence that transgenes encoding components of the Wnt signaling pathway preferentially induce mammary cancers from progenitor cells. 1466 50

Gene amplification is an important mechanism of oncogene activation in breast and other cancers. Characterization of amplified regions of the genome in breast cancer has led to the identification of important oncogenes including erbB-2/HER-2, C-MYC, and fibroblast growth factor receptor (FGFR) 2. Chromosome 8p11-p12 is amplified in 10-15% of human breast cancers. The putative oncogene FGFR1 localizes to this region; however, we show evidence that FGFR inhibition fails to slow growth of three breast cancer cell lines with 8p11-p12 amplification. We present a detailed analysis of this amplicon in three human breast cancer cell lines using comparative genomic hybridization, traditional Southern and Northern analysis, and chromosome 8 cDNA microarray expression profiling. This study has identified new candidate oncogenes within the 8p11-p12 region, supporting the hypothesis that genes other than FGFR1 may contribute to oncogenesis in breast cancers with proximal 8p amplification.
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PMID:Genomic and expression analysis of the 8p11-12 amplicon in human breast cancer cell lines. 1472 6

In this study, we analysed gene amplification, RNA expression and protein expression of the c-myc gene on archival tissue specimens of high-grade human breast cancer, using fluorescent in situ hybridisation (FISH), nonradioactive in situ hybridisation and immunohistochemistry. The specific question that we addressed was whether expression of c-Myc mRNA and protein were correlated with its gene copy amplification, as determined by FISH. Although c-Myc is one of the most commonly amplified oncogenes in human breast cancer, few studies have utilised in situ approaches to directly analyse the gene copy amplification, RNA transcription and protein expression on human breast tumour tissue sections. We now report that by using the sensitive FISH technique, a high proportion (70%) of high-grade breast carcinoma were amplified for the c-myc gene, irrespective of status of the oestrogen receptor. However, the level of amplification was low, ranging between one and four copies of gene gains, and the majority (84%) of the cases with this gene amplification gained only one to two copies. Approximately 92% of the cases were positive for c-myc RNA transcription, and essentially all demonstrated c-myc protein expression. In fact, a wide range of expression levels were detected. Statistically significant correlations were identified among the gene amplification indices, the RNA expression scores and protein expression scores. c-myc gene amplification, as detected by FISH, was significantly associated with expression of its mRNA, as measured by the intensity of in situ hybridisation in invasive cells (P=0.0067), and by the percentage of invasive cells positive for mRNA expression (P=0.0006). c-myc gene amplification was also correlated with the percentage of tumour cells which expressed high levels of its protein, as detected by immunohistochemistry in invasive cells (P=0.0016). Thus, although multiple mechanisms are known to regulate normal and aberrent expression of c-myc, in this study, where in situ methodologies were used to evaluate high-grade human breast cancers, gene amplification of c-myc appears to play a key role in regulating expression of its mRNA and protein.
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PMID:Correlation of amplification and overexpression of the c-myc oncogene in high-grade breast cancer: FISH, in situ hybridisation and immunohistochemical analyses. 1508 94

USF and c-Myc are basic helix-loop-helix transcription factors with similar DNA-binding specificities, but antagonistic effects on cellular transformation. In order to determine how these opposite functions correlate with the transcriptional activities of the two factors on particular downstream targets, we investigated the roles of USF and c-Myc in expression of CDK4, a known direct target of c-Myc. Overexpression of either c-Myc or USF2, but not USF1, stimulated the expression of CDK4 promoter-driven reporter genes in the non-tumorigenic mammary epithelial MCF-10A cells. Dominant-negative mutants specific to either Myc or USF family proteins inhibited reporter gene activity as well as endogenous CDK4 expression, demonstrating involvement of both USF and Myc in CDK4 transcriptional control. In contrast, in two different breast cancer cell lines where USF is transcriptionally inactive and c-Myc is overexpressed, CDK4 promoter activity was no longer responsive to either transcription factor. Accordingly, chromatin immunoprecipitation revealed significantly lower levels of both USF and c-Myc bound to the endogenous CDK4 promoter in breast cancer cells than in MCF-10A cells, with a concomitant decrease in associated histone H3 acetylation. These results suggest that a major switch in the transcriptional control of CDK4 occurs during breast carcinogenesis, with likely alteration of cell cycle regulation.
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PMID:Evidence for a cancer-specific switch at the CDK4 promoter with loss of control by both USF and c-Myc. 1520 53

Growth factor receptor bound (Grb)14 is a member of the Grb7 family of src homology (SH)2 domain-containing proteins. These proteins perform both adaptor and modulatory roles in receptor tyrosine kinase (RTK) signaling, although their regulation is poorly understood. In this study, a positive correlation between Grb14 protein expression and ER alpha status in breast cancer cell lines led us to investigate regulation of Grb14 by estradiol and insulin, which synergize in the regulation of breast cancer cell proliferation. In MCF-7 cells maintained in charcoal-stripped serum, Grb14 expression was downregulated by estradiol and increased by the pure anti-estrogen ICI 182780. Under serum-free conditions, insulin enhanced Grb14 expression but this effect was repressed by estradiol when both hormones were used in combination. Using a system in which c-Myc induction drives cell cycle progression independently of estradiol, we demonstrated that Grb14 regulation was specific to estradiol treatment. Finally, we demonstrated a novel functional role for Grb14 whereby its overexpression inhibited not only insulin- but also estrogen-induced cell cycle progression. This was associated with decreased extracellular signal-regulated kinase (Erk)1/2 activation in insulin-stimulated Grb14-overexpressing cells. These data represent the first demonstration of regulation of Grb14 expression levels in response to hormonal stimuli, and are consistent with its role as a repressor of insulin signaling where it is induced as a negative feedback mechanism. A role for Grb14 is also shown in estrogen/insulin crosstalk since estradiol blocks the insulin-induced induction of this protein.
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PMID:Hormonal regulation of the Grb14 signal modulator and its role in cell cycle progression of MCF-7 human breast cancer cells. 1537 66

The helix-loop-helix protein Id1 has been implicated in regulating mammary epithelial cell proliferation and differentiation but the underlying molecular mechanisms are not well characterized. Under low serum conditions, ectopic expression of Id1, but not Id2, allowed continued proliferation of immortalized mammary epithelial cells and breast cancer cells. Conversely, downregulation of Id1 impaired proliferation. The effects of short interfering RNA (siRNA)-mediated downregulation of Id1 were the same as those following downregulation of c-Myc: decreased expression of cyclins D1 and E, reduced phosphorylation of pRb at Ser780 (a site targeted by cyclin D1-Cdk4) and reduced cyclin E-Cdk2 activity. Decreased cyclin D1 expression was an early response to Id1 antisense oligonucleotide treatment. Inhibition of c-Myc function by siRNA, antisense oligonucleotides or a dominant repressor resulted in downregulation of Id1, while ectopic expression of c-Myc resulted in rapid induction of Id1, suggesting that Id1 may be downstream of c-Myc. These data indicate that in mammary epithelial cells, Id1 has cell cycle regulatory functions that are similar to those of c-Myc, and suggest that cyclin D1 may be involved in Id1 regulation of cell cycle progression.
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PMID:Regulation of cyclin expression and cell cycle progression in breast epithelial cells by the helix-loop-helix protein Id1. 1548 84

TGF-beta is a multifunctional cytokine known to exert its biological effects through a variety of signaling pathways of which Smad signaling is considered to be the main mediator. At present, the Smad-independent pathways, their interactions with each other, and their roles in TGF-beta-mediated growth inhibitory effects are not well understood. To address these questions, we have utilized a human breast cancer cell line MCF10CA1h and demonstrate that p38 MAP kinase and Rho/ROCK pathways together with Smad2 and Smad3 are necessary for TGF-beta-mediated growth inhibition of this cell line. We show that Smad2/3 are indispensable for TGF-beta-mediated growth inhibition, and that both p38 and Rho/ROCK pathways affect the linker region phosphorylation of Smad2/3. Further, by using Smad3 mutated at the putative phosphorylation sites in the linker region, we demonstrate that phosphorylation at Ser203 and Ser207 residues is required for the full transactivation potential of Smad3, and that these residues are targets of the p38 and Rho/ROCK pathways. We demonstrate that activation of the p38 MAP kinase pathway is necessary for the full transcriptional activation potential of Smad2/Smad3 by TGF-beta, whereas activity of Rho/ROCK is necessary for both down-regulation of c-Myc protein and up-regulation of p21waf1 protein, directly interfering with p21waf1 transcription. Our results not only implicate Rho/ROCK and p38 MAPK pathways as necessary for TGF-beta-mediated growth inhibition, but also demonstrate their individual contributions and the basis for their cooperation with each other.
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PMID:Role of Rho/ROCK and p38 MAP kinase pathways in transforming growth factor-beta-mediated Smad-dependent growth inhibition of human breast carcinoma cells in vivo. 1552 18

Sodium butyrate (NaBu), a potent histone deacetylase inhibitor, modulates the expression of a large number of genes. The purpose of this study was to determine whether this dietary agent could induce apoptosis in MCF-7 cells, a breast cancer cell line that lacks caspase-3 activity, and to identify the mechanisms that underlie NaBu toxicity in these cells. Cell viability assessed by the activity of mitochondrial succinate dehydrogenase (MTT assay) revealed a dose-dependent reduction of MCF-7 cellular growth in response to NaBu treatment. Restoring caspase-3 function by transfection did not modify NaBu toxicity in these cells. Following a 24-h exposure, NaBu-induced cell growth arrest in G2/M phase in a dose-dependent fashion in association with stable expression of CDC25A, a G1-specific regulator of the cell cycle. The anti-proliferative effects of NaBu were accompanied by diminished expression of p53. Similarly, mRNA encoding c-Myc, a well-known regulator of p53, was decreased in NaBu-treated cells, while p21(Waf1/Cip1) mRNA was increased. Furthermore, bax mRNA level was up-regulated whereas a decline in Bcl-2 both protein and mRNA levels were detected in NaBu-treated cells. Apoptosis was observed following a treatment with 2 mM NaBu, reflected by Annexin-V staining and by the cleavage of poly(ADP-ribose) polymerase, whereas DNA laddering was absent. Apoptosis was associated with a pronounced depletion of intracellular glutathione levels. Finally, NaBu treatment significantly increased the activities of several antioxidant enzymes, including glutathione reductase, glutathione peroxidase, and catalase. Together, these data suggest that the pro-apoptotic effects of NaBu observed in MCF-7 cells are associated with oxidative stress.
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PMID:The histone deacetylase inhibitor sodium butyrate induces breast cancer cell apoptosis through diverse cytotoxic actions including glutathione depletion and oxidative stress. 1554 8

Estrogen and insulin/insulin-like growth factor-I (IGF-I) are major mitogens for breast epithelial cells and when co-administered, synergistically induce G(1)-S phase cell cycle progression. We investigated this cooperativity by evaluating if the key cell cycle regulators, c-Myc and cyclin D1, represent points of convergence in the action of these mitogens in MCF-7 breast cancer cells. These studies demonstrated that estrogen significantly increased both c-Myc and cyclin D1 protein, while insulin predominantly increased cyclin D1 levels. This cumulative increase in c-Myc and cyclin D1 contributes to the cooperativity of these mitogens, since ectopic expression of c-Myc or cyclin D1 cooperates with either the estrogen or insulin signaling pathways to increase cell cycle progression. Inhibition of the MAPK or PI3-kinase pathways significantly reduced c-Myc and cyclin D1 protein levels and cell cycle progression. Ectopic expression of cyclin D1 partially overcame this inhibition, while ectopic expression of c-Myc partially overcame MAPK but not PI3-kinase inhibition. Therefore, estrogen and insulin/IGF-1 differentially regulate c-Myc and cyclin D1 to cooperatively stimulate breast cancer cell proliferation.
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PMID:Estrogen and insulin/IGF-1 cooperatively stimulate cell cycle progression in MCF-7 breast cancer cells through differential regulation of c-Myc and cyclin D1. 1560 40

Anti-HER2 antibody trastuzumab is emerging as a frontline therapy for patients with metastatic breast cancers that overexpress HER2. Understanding the molecular mechanisms by which the antibody inhibits tumor growth should permit the design of even more effective trastuzumab-based protocols. Several groups including our own have demonstrated that induction of cyclin-dependent kinase (CDK) inhibitor p27Kip1 protein is one of the key mechanisms of action of HER2-targeting antibodies. In this review, we discuss currently available data regarding the multiple signaling targets and pathways by which HER2-targeting antibodies upregulate p27Kip1 protein in breast cancer cells that overexpress HER2. Anti-HER2 antibodies inhibit HER2-mediated signaling in cancer cells, ultimately upregulating the levels and activity of p27Kip1 protein. At least six signaling targets and pathways are modulated by trastuzumab. By inhibiting CDK2 and decreasing Thr187 phosphorylation of p27Kip1, trastuzumab abrogates targeting of SCF-ubiquitin E3 ligase and minimizes proteasome degradation of p27Kip1. By inhibiting AKT and human kinase interacting stathmin (hKIS), trastuzumab blocks Thr157-, Thr198- and Ser10-induced p27Kip1 translocation from the nucleus to the cytosol, which increases the inhibitory effect of p27Kip1. By inhibiting Jun activation domain-binding protein 1 (Jab1) trastuzumab increases nuclear retention of p27Kip1. By inhibiting cyclin D and c-Myc, trastuzumab releases the sequestrated p27bKip1 protein from cyclin D-CDK4/6 complexes and increase the effect of p27Kip1 on CDK2-cyclin E complexes. By stimulating minibrain related kinase (MIRK), trastuzumab stabilizes p27Kip1 in the nucleus, which increases inhibitory action of p27Kip1 on CDK2. The targets and pathways affected by trastuzumab work in concert to maximize the expression and inhibitory effect of p27Kip1, which leads to cell cycle G1 arrest and growth inhibition.
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PMID:HER2-targeting antibodies modulate the cyclin-dependent kinase inhibitor p27Kip1 via multiple signaling pathways. 1561 42

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