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 ErbB3 protein is a member of the ErbB subfamily of receptor protein tyrosine kinases. In the present study, the mechanism by which the ErbB3 protein is phosphorylated and the signal-transducing functions of this phosphorylated protein were investigated. When phosphorylated by the epidermal growth factor receptor in vitro, the ErbB3 protein strongly associated with the regulatory p85 subunit and the catalytic activity of phosphatidylinositol (PI) 3-kinase. The association of PI 3-kinase with ErbB3 in human breast cancer cells was found to be correlated with the constitutive phosphorylation of ErbB3 on tyrosine residues. In MDA-MB-468 breast cancer cells in which the ErbB3 protein is not constitutively phosphorylated, stimulation with epidermal growth factor led to the phosphorylation of ErbB3 on tyrosine residues and the formation of a functional signal transduction complex involving the ErbB3 protein and PI 3-kinase. These results suggest that the ErbB3 protein can be phosphorylated on tyrosine residues by a cross-phosphorylation mechanism and that the phosphorylated ErbB3 protein can couple other growth factor receptor protein tyrosine kinases to the PI 3-kinase pathway in a manner similar to the insulin receptor substrate 1 protein.
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PMID:Epidermal growth factor-dependent association of phosphatidylinositol 3-kinase with the erbB3 gene product. 792 51

Estrogen and IGF-I are potent mitogens for most breast cancer cell lines, and although their signaling pathways contrast, there is considerable interaction between them. Recent evidence indicating that IGF-I can alter estrogen receptor (ER) action led us to investigate whether an inhibitor of IGF-I action. IGF-binding protein-1 (IGFBP-1), could affect transcriptional activation of ER. First, we confirmed that tamoxifen (TAM) could inhibit IGF-I-mediated proliferation of MCF-7 cells. Although TAM can increase IGFBP-3 expression in MCF-7 cells, and this binding protein has been shown to be able to inhibit IGF action, TAM had no effect on IGF-I-stimulated tyrosine phosphorylation of IGF-I receptor or the downstream signaling molecule, insulin receptor substrate-1. Therefore, to confirm that IGF-I was affecting transcriptional activation of ER, we utilized a gene reporter assay using a single consensus estrogen response element (ERE-tk-luc) upstream of luciferase. As expected, estradiol (E2; 1nM) increased transcriptional activation three- to fivefold from the ERE in three ER-positive breast cancer cell lines (MCF-7, ZR-75 and T47D). A 2.5-to 4-fold increase was also seen with IGF-I (5 nM). TAM (1 microM) effectively blocked activation by E2 and IGF-I, indicating disruption of ER-mediated transcription. As expected, human recombinant IGFBP-1 (80 nM) completely inhibited IGF-I-mediated activation of ER, however, IGFBP-1 also caused a significant decrease in E2-mediated activation. We also noticed that IGF-I increased the activity of all plasmids that we cotransfected including TATA-luc, SV40-luc and pGL Basic. This effect was post-transcriptional, as it was not affected by actinomycin D (2 micrograms/ml), while we were able to completely inhibit E2-mediated transcriptional activation of ERE-tk-luc. Unlike the complete inhibition of ER-mediated transcriptional activation by actinomycin D, IGF-I-mediated transactivation was reduced by only 50%, indicating that the activation by IGF-I represented both transcriptional and post-transcriptional effects. This study confirmed that IGF-I can cause transcriptional activation of endogenous ER in human breast cancel cells, and inhibition of ER action by IGFBP-1 suggests that IGF-1 signaling may be necessary for maximal ER activation.
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PMID:Activation of estrogen receptor-mediated gene transcription by IGF-I in human breast cancer cells. 901 38

The insulin-like growth factor I receptor (IGF-IR) paracrine or autocrine loop plays an important role in the maintenance of breast cancer growth. Cancer cells contain several-fold higher levels of the IGF-IR than normal breast tissue; however, it is still not clear whether abnormally high activation of IGF-IR signaling may induce progression of the disease. To address this question, we have established several MCF-7-derived clones (MCF-7/IGF-IR cells) overexpressing the IGF-IR. We report here that overexpression of the IGF-IR did not modify sensitivity of cells to IGF-I; however, responsiveness to the ligand was moderately enhanced in most of the MCF-7/IGF-IR clones (measured by [3H]thymidine incorporation into DNA). All MCF-7/IGF-IR clones responded to the synergistic action of 1 nM estradiol (E2) and small amounts of IGF-I (up to 0.8 ng/ml). Exposure of cells to higher concentrations of IGF-I abolished estrogen requirements for stimulation of DNA synthesis in all MCF-7/IGF-IR clones, but not in the parental cells. The most important finding of this work was that the amplification of the IGF-IR induced cell-cell adhesion in MCF-7 cells. High levels of the IGF-IR promoted cell aggregation on Matrigel, allowed proliferation of cells within the aggregates, and protected clustered cells from death. In both MCF-7 and MCF-7/IGF-IR cells, IGF-I stimulated aggregation, whereas an anti-E cadherin antibody blocked cell-cell adhesion. Furthermore, immunofluorescence staining with specific antibodies revealed co-localization of the IGF-IR and E-cadherin at the points of cell-cell contacts. Moreover, the IGF-IR and its two substrates, insulin receptor substrate 1 and SHC, were contained within the E-cadherin complexes. Our results suggest that overexpressed IGF-IRs, by promoting the aggregation, growth, and survival of breast cancer cells, may accelerate the increase of tumor mass and may also prevent cell scattering.
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PMID:Overexpressed IGF-I receptors reduce estrogen growth requirements, enhance survival, and promote E-cadherin-mediated cell-cell adhesion in human breast cancer cells. 905 22

The insulin-like growth factor I receptor (IGF-IR) is involved in the control of breast cancer cell growth. The cytostatic activity of tamoxifen (Tam), a nonsteroidal antiestrogen, is partially mediated through interference with IGF-I-R-dependent proliferation, yet the effects of Tam on IGF-IR intracellular signaling have never been elucidated. Consequently, we investigated how Tam modifies the IGF-IR signaling pathway in estrogen receptor-positive MCF-7 breast cancer cells and in MCF-7-derived clones overexpressing either the IGF-IR (MCF-7/IGF-IR cells) or its major substrate, IRS-1 (MCF-7/IRS-1 cells). MCF-7/IGF-IR and MCF-7/IRS-1 cells exhibit greatly reduced estrogen growth requirements but retain estrogen receptors and express sensitivity to antiestrogens comparable to that in the parental cells. In all tested cell lines, regardless of the amplification of IGF signaling, a 4-day treatment with 10 nM Tam produced a similar cytostatic effect. In MCF-7 and MCF-7/IGF-IR cells, growth inhibition by Tam was associated with the reduced tyrosine phosphorylation of the IGF-IR in the presence of IGF-I; however, the basal level of the IGF-IR remained unaffected. Moreover, Tam inhibited both basal and IGF-I-induced tyrosine phosphorylation of IRS-1, which was accompanied by down-regulation of IRS-1-associated phosphatidylinositol 3'-kinase activity and reduced IRS-1/growth factor receptor-bound protein 2 (GRB2) binding. In contrast, under the same treatment, tyrosine phosphorylation of Src-homology/collagen proteins (SHC; another substrate of the IGF-IR) and SHC/GRB2 binding were elevated. The protein levels of the IGF-IR and IRS-1 were not modified by Tam, whereas SHC protein expression was either not affected or moderately decreased by the treatment. In summary, this work provides the first evidence that in MCF-7 cells, cytostatic effects of Tam are associated with the modulation of IGF-IR signaling, specifically with: (a) down-regulation of IGF-I-induced tyrosine phosphorylation of the IGF-IR; (b) inhibition of IRS-1/phosphatidylinositol 3'-kinase signaling; and (c) up-regulation of SHC tyrosine phosphorylation and increased SHC/GRB2 binding. It is hypothesized that dephosphorylation of IRS-1 could be a major contributing factor in Tam cytostatic activity.
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PMID:Tamoxifen interferes with the insulin-like growth factor I receptor (IGF-IR) signaling pathway in breast cancer cells. 920 64

Several polypeptide growth factors stimulate breast cancer growth and may be involved in tumor progression. However, the relative importance of diverse growth factor signaling pathways in the development and maintenance of the neoplastic phenotype is largely unknown. The activation of such growth factor receptors as the insulin-like growth factor I receptor (IGF-I R), erbB-type receptors (erbB Rs) and FGF receptors (FGF Rs) controls the phenotype of a model breast cancer cell line MCF-7. To evaluate the function of 2 post-receptor signaling molecules, insulin receptor substrate-1 (IRS-1) (a major substrate of the IGF-IR) and SHC (a common substrate of tyrosine kinase receptors), we developed several MCF-7-derived cell clones in which the synthesis of either IRS-1 or SHC was blocked by antisense RNA. In MCF-7 cells, down-regulation of IRS-1 by 80-85% strongly suppressed anchorage-dependent and -independent growth and induced apoptotic cell death under growth factor- and estrogen-reduced conditions. The reduction of SHC levels by approximately 50% resulted in the inhibition of monolayer and anchorage-independent growth but did not decrease cell survival. Importantly, cell aggregation and the ability of cells to survive on the extracellular matrix were inhibited in MCF-7/anti-SHC clones, but not in MCF-7/anti-IRS-1 clones. Cell motility toward IGF was not attenuated in any of the tested cell lines, but motility toward EGF was decreased in MCF-7/anti-SHC clones. Our results suggest that in MCF-7 cells: 1) both IRS-1 and SHC are implicated in the control of monolayer and anchorage-independent growth; 2) IRS-1 is critical to support cell survival; 3) SHC is involved in EGF-dependent motility; and 4) normal levels of SHC, but not IRS-1, are necessary for the formation and maintenance of cell-cell interactions.
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PMID:Differential roles of IRS-1 and SHC signaling pathways in breast cancer cells. 931 1

We reported recently that weight cycling significantly increased the incidence of mammary cancer in virgin female rats that were pretreated with N-methyl-N-nitrosourea. The present study investigated the effect of weight cycling on mammary epithelial cell proliferation and its relationship to changes in plasma insulin, estrogen, progesterone and urinary corticosterone in 30 female virgin Sprague-Dawley rats. Animals were fed a modified AIN-76A diet containing 24.6% corn oil by weight. Weight-cycled (WC) rats were food restricted daily by either 33% or 50% of non-restricted controls for 1 week followed by 3 weeks compensatory refeeding and weight recovery over 18 weeks or 4.5 weight cycles. WC rats consumed 6-10% less food than controls (P = 0.01) but showed a 71-89% greater efficiency of food utilization for growth (P < 0.0001) than controls. There were no differences in total weight gain during treatment. Mammary lobuloalveolar and ductal cell proliferation of WC rats, measured by 5-bromo-2'deoxyuridine labelling, increased in a dose-response fashion, P = 0.03, P = 0.06 respectively in comparison to controls. Energy and substrate utilization measured by indirect calorimetry indicated WC animals expended less energy (P = 0.005) and utilized less glucose (P = 0.0001) and protein (P = 0.006) during restriction, and less lipid during recovery (P = 0.05) than controls. There were no significant differences in hormone levels between groups. Multiple regression analysis with plasma insulin, estrogen, progesterone and urinary corticosterone as independent variables (r = 0.947, r2 = 0.897, P = 0.003) showed that plasma insulin was the only significant predictor (P < 0.01) of mammary cell proliferation. In accord with this observation, tyrosine-phosphorylated activation of insulin receptor substrate-1, detected by immunoprecipitation and Western immunoblot analysis in mammary tumors of WC rats from our previous study, was 3-5 times greater than in non-restricted controls (P < 0.01). Present findings suggest that weight cycling in rats increases risk of breast cancer development via insulin stimulated mammary cell proliferation.
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PMID:Cyclic food restriction, insulin and mammary cell proliferation in the rat. 939 31

Because insulin-like growth factor-I (IGF-I), insulin, and interleukin-4 (IL-4) have known biological effects in breast cancer cells and signal through insulin-receptor substrate (IRS) adaptor proteins, we examined the expression and function of IRS-1 and IRS-2 in breast tumors and cell lines. IRS-1 and IRS-2 were expressed by cell lines and primary breast tumor specimens. IGF-I, insulin, and IL-4 treatment of MCF-7 and ZR-75, and IGF-I treatment of T47-D breast cancer cells, resulted in much greater tyrosine phosphorylation of IRS-1 compared with IRS-2. Furthermore, IGF-I stimulated greater tyrosine phosphorylation of IRS-1 than either insulin or IL-4. IGF-I treatment also enhanced association of the p85 regulatory subunit of phosphatidylinositol 3-kinase with IRS-1 and stimulated increased enzymatic activity compared with IL-4 and insulin in all three cell lines. Similarly, mitogen-activated protein kinase activity was greater in IGF-I-stimulated cells. To determine the functional significance of the activation of these pathways, we inhibited activation of phosphatidylinositol 3-kinase with wortmannin and mitogen-activated protein kinase with PD098059. Both compounds inhibited IGF-stimulated growth, suggesting that both pathways contributed to the mitogenic response to IGF-I. We conclude that IRS-1, and not IRS-2, is the predominant signaling molecule activated by IGF-I, insulin, and IL-4. Furthermore, enhanced tyrosine phosphorylation of IRS-1 by IGF-I, compared with either insulin or IL-4, is associated with greater activation of mitogenic downstream signaling pathways resulting in enhanced cell growth.
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PMID:Insulin receptor substrate-1 is the predominant signaling molecule activated by insulin-like growth factor-I, insulin, and interleukin-4 in estrogen receptor-positive human breast cancer cells. 954 45

In many human breast cancers and cultured cell lines, insulin receptor expression is elevated, and insulin, via its own insulin receptor, can stimulate cell growth. It has recently been demonstrated that the enzyme phosphatidylinositol-3-kinase (PI3-K) mediates various aspects of insulin receptor signaling including cell growth. In order to understand the mechanisms for insulin-stimulated cell growth in human breast cancer, we measured insulin-stimulable PI3-K activity in a non-transformed breast epithelial cell line, MCF-10A, and in two malignantly transformed cell lines, ZR-75-1 and MDA-MB157. All three cell lines express comparable amounts of insulin receptors whose tyrosine autophosphorylation is increased by insulin, and in these cell lines insulin stimulates growth. In MDA-MB157 and MCF-10A cells, insulin stimulated PI3-K activity three- to fourfold. In ZR-75-1 cells, however, insulin did not stimulate PI3-K activity. In ZR-75-1 cells PI3-K protein was present, and its activity was stimulated by epidermal growth factor, suggesting that there might be a defect in insulin receptor signaling upstream of PI3-K and downstream of the insulin receptor. Next, we studied insulin receptor substrate-1 (IRS-1), a major endogenous substrate for the insulin receptor which, when tyrosine is phosphorylated by the insulin receptor, interacts with and activates PI3-K. In ZR-75-1 cells, there were reduced levels of protein for IRS-1. In these cells, both Shc tyrosine phosphorylation and mitogen-activated protein kinase (MAP-K) activity were increased by the insulin receptor (indicating that the p21ras pathway may account for insulin-stimulated cell growth in ZR-75-1 cells). The PI3-K inhibitor LY294002 (50 microM) reduced insulin-stimulated growth in MCF-10A and MDA-MB157 cell lines, whereas it did not modify insulin effect on ZR-75-1 cell growth. The MAP-K/Erk (MEK) inhibitor PD98059 (50 microM) consistently reduced insulin-dependent growth in all three cell lines. Taken together, these data suggest that in breast cancer cells insulin may stimulate cell growth via PI3-K-dependent or-independent pathways.
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PMID:Insulin-stimulated cell growth in insulin receptor substrate-1-deficient ZR-75-1 cells is mediated by a phosphatidylinositol-3-kinase-independent pathway. 967 Dec 32

Insulin-like growth factors (IGFs) interact with specific cell surface receptors to mediate cell growth. Intracellular effects of the IGFs are mediated by activation of secondary messenger molecules. One of these proteins, insulin receptor substrate-1 (IRS-1), is phosphorylated after type I IGF receptor activation and has a major role in IGF signaling. Receptor activation also is influenced by high-affinity IGF binding proteins (IGFBPs). In serum, IGFBP-3 is the predominant species. The role of IGFBP-3 in the regulation of breast cancer cell growth is unclear; both growth inhibition and stimulation have been documented in tissue culture systems. To investigate the influence of IGFBP-3 and IRS-1 in breast cancer, we measured levels of these proteins by ELISA and immunoblotting in 195 node-negative primary human breast cancers and compared their levels with known prognostic factors and disease-free survival (DFS). IGFBP-3 levels correlated positively with tumor size (r = 0.27, P < 0.0001) and negatively with estrogen receptor (r = -0.35, P < 0. 0001) and progesterone receptor (r = -0.16, P = 0.021). In contrast, IRS-1 did not correlate with prognostic factors, but higher levels of IRS-1 predicted worse DFS for the subset of patients with tumors </=2 cm (P = 0.04), and for patients with estrogen receptor-positive tumors, there was a trend toward worse DFS (P = 0.06). These results suggest that higher tumor levels of IGFBP-3 are associated with worse features in breast cancer. However, IGFBP-3 was not an independent prognostic factor. In contrast, high levels of IRS-1 in the tumors predicted a higher incidence of recurrence, suggesting that IRS-1-mediated signaling in breast tumors may be involved in the growth regulation of breast cancer.
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PMID:Insulin-like growth factor binding protein-3 and insulin receptor substrate-1 in breast cancer: correlation with clinical parameters and disease-free survival. 981 44

The synergistic action of estrogens and insulin-like growth factors (IGFs) promotes the growth of many human breast cancer cell lines. This synergistic effect involves estrogen-dependent induction of the IGF system, i.e., estrogens augment the number of IGF-I receptors, stimulate the secretion of IGF-II, and promote the synthesis of certain IGF-binding proteins. On the other hand, the sustained activation of the IGF-I receptor (IGF-IR) by the overexpression of IGF-II has been found to contribute to the development of the estrogen-independent phenotype in breast cancer cells. In this study, we have investigated whether the amplification of the IGF-IR intracellular signaling in MCF-7 cells can abolish or reduce estrogen requirements for growth and transformation. To this end we developed several MCF-7 clones that overexpressed insulin receptor substrate 1 (IRS-1), one of the principal substrates of the IGF-IR. We report here that in MCF-7 cells overexpressing IRS-1, estrogen requirements for growth in monolayer culture as well as in soft agar were reduced. The decreased estrogen requirements depended on the level of the overexpressed IRS-1 protein, and in cells which contained several-fold more functional IRS-1 than the parental cells, we observed total loss of estrogen dependence for growth. In addition, the importance of IRS-1 in proliferation of MCF-7 cells has been confirmed through the use of antisense strategies.
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PMID:Overexpression of insulin receptor substrate 1 (IRS-1) in the human breast cancer cell line MCF-7 induces loss of estrogen requirements for growth and transformation. 981 41

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