UNIPROT:P04626 - FACTA Search

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Query: UNIPROT:P04626 (erbB-2)
5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A biologically aggressive subset of human breast cancers has been demonstrated to overexpress fatty acid synthase (FAS), the key enzyme of endogenous FA biosynthesis. This breast cancer-specific activation of FAS-dependent lipogenesis, an anabolic-energy-storage pathway of minor importance in normal cells, would render breast cancer cells more vulnerable to anti-metabolite interventions with FAS as therapeutic target. Not surprisingly, pharmacological inhibitors of FAS have been reported to produce both cytostatic and cytotoxic effects in human breast cancer cells, as well as to suppress DNA replication. However, the signal transduction pathway(s) that link FAS hyperactivity and breast cancer cell growth has been unresolved. Here, we have attempted to provide a systematic approach to assess the role of FAS signaling on the survival and proliferation of human breast cancer cells. First, we assessed the level of FAS protein in a panel of human breast cancer cell lines (MCF-7, MDA-MB-231, MDA-MB-453, MDA-MB-435, ZR-75B, T47-D, BT-474, and SK-Br3). FAS expression was graded from ++++ (overexpression) in SK-Br3 cells to + (very low expression) in MDA-MB-231 cells. No correlation was noted between FAS overexpression and estrogen receptor (ER) or progesterone receptor (PR) status, whereas a positive correlation was found between high levels of FAS expression and the amplification and/or overexpression of HER-2/neu oncogene. Because metabolic adaptation of breast cancer cells to the ambient fatty acid concentration may be relevant to the goal of utilizing FAS inhibition as a chemotherapeutic target, we evaluated the effect of exogenous dietary fatty acids on the cytotoxicity resulting from the inhibition of FAS activity. Pharmacological inhibition of FAS activity by the natural antibiotic cerulenin [(2S,3R)-2,3-epoxy-4-oxo-7E,10E-dodecadienamide] resulted in a dose-dependent cytotoxicity which positively paralleled the endogenous level of FAS. Supraphysiological levels of exogenous oleic acid (OA), a omega-9 monounsaturated fatty acid synthesized from a primary-end product of FAS palmitate, significantly diminished cell toxicity caused by cerulenin. Indeed, OA exposure significantly reduced FAS activity and expression by 55% in FAS-overexpressing SK-Br3 cells. omega-3 (alpha-linolenic acid, eicosapentaenoic acid and docosahexaenoic acid) and omega-6 (linoleic acid and arachidonic acid) polyunsaturated fatty acids (PUFAs), however, were unable to rescue breast cancer cells from cerulenin-induced cytotoxicity. Pharmacological blockade of FAS activity in FAS-overexpressing SK-Br3 cells resulted in apoptosis as determined by an enzyme-linked immunosorbent assay for histone-associated DNA fragments, and confirmed by TUNEL DNA-end labeling experiments. We further characterized signaling molecules that participate in the cellular events that follow inhibition of FAS activity and precede apoptosis in breast cancer cells. In SK-Br3 cells, cerulenin-induced inhibition of FAS activity resulted in down-regulation of p53, and up-regulation of cyclin-dependent kinase inhibitor (CDKi) p21WAF1/CIP1. Treatment with cerulenin or a novel small-molecule inhibitor of FAS C75 resulted in a dramatic accumulation of CDKi p27KIP1, which was accompanied by a noteworthy translocation of p27KIP1 from cytosol to cell nuclei. Strikingly, FAS inhibition also caused a significant activation of the Raf-mitogen-activated protein kinase (MEK) extracellular signal-regulated kinase (ERK1/2) cell survival pathway. Interestingly, we demonstrated that inhibition of FAS activity increased the nuclear-to-cytoplasmic ratio of BRCA1, a breast cancer tumor suppressor protein, as well as it induced a nuclear translocalization of the anti-apoptotic nuclear transcription factor-kappaB (NF-kappaB). In conclusion, here we demonstrate that: a) breast cancer cells retain dependence on endogenous fatty acid synthesis and sensitivity to FAS inhibition in the presence of supraphysiological levels of dietary fatty acids, supporting the notion that FAS inhibition may be useful in treFAS inhibition may be useful in treating breast cancer in vivo; b) endogenous fatty acid synthesis is functional in breast cancer cells and is vital since its pharmacological inhibition is cytotoxic by promoting apoptosis, and c) specific blockade of FAS activity induces the accumulation, activation, and/or cellular relocalization of multiple and diverse pro- and anti-apoptotic signaling pathways, suggesting that p53-p21WAF1/CIP1, ERK1/2 MAPK, p27KIP1, BRCA1, and NF-kappaB play a novel role in the breast cancer cell response to a metabolic stress after perturbation of FAS-dependent de novo fatty acid biosynthesis.
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PMID:Novel signaling molecules implicated in tumor-associated fatty acid synthase-dependent breast cancer cell proliferation and survival: Role of exogenous dietary fatty acids, p53-p21WAF1/CIP1, ERK1/2 MAPK, p27KIP1, BRCA1, and NF-kappaB. 1476 44

The omega-6 polyunsaturated fatty acid gamma-linolenic acid (GLA; 18:3n-6) has raised recent interest as novel anti-cancer agent as it possesses effective tumoricidal properties while not inducing damage to normal cells or creating harmful systemic side effects. The taxane docetaxel (Taxotere) is currently one of the most active microtubule-interfering agents for breast cancer. Despite this encouraging therapeutical potential, the clinical use of taxanes involves problems related to the solubility, toxicity and development of drug resistance, which may be partially dependent on the expression of HER-2/neu oncogene. Current trends in the treatment of human tumors are for drug combinations that result in improved responses as well as the ability to use less toxic concentrations of the drugs. Here, we examined the cytotoxic effects of GLA in combination with docetaxel against estrogen-dependent (MCF-7) and estrogen-independent (MDA-MB-231 and SK-Br3) human breast carcinoma cell lines. The cells were exposed simultaneously to GLA and docetaxel or sequentially to GLA followed by docetaxel for 24 h. Cytotoxicity was evaluated by the MTT assay, and the nature of the interactions between GLA and docetaxel (antagonism, additivity, and synergism) was analyzed by median effect and isobologram analyses. Interaction assessment showed that concurrent exposure to GLA plus docetaxel for 24 h resulted in synergism for MCF-7 and MDA-MB-231 cells, whereas an additive effect was observed in SK-Br3 cells. When exposure to GLA (24 and 48 h) was followed sequentially by docetaxel (24 h) a synergistic effect was observed in MDA-MB-231 and SK-Br3 cells, whereas an additive effect was found in MCF-7 cells. GLA-mediated increase in docetaxel cytotoxicity was only marginally abolished by Vitamin E, a lipid peroxidation inhibitor. Moreover, simultaneous exposure to GLA and docetaxel in the presence of the anti-oxidant Vitamin E also resulted in synergism, suggesting a limited influence of the oxidative status of GLA in achieving potentiation of docetaxel-induced cytotoxicity. Further experiments showed that GLA markedly decreased the expression of p185HER-2/neu oncoprotein in MCF-7 breast cancer cells (</=85%), and RT-PCR analysis revealed that HER-2/neu mRNA was selectively decreased in a concentration-dependent manner following GLA treatment. Therefore, our results show that the fatty acid GLA enhances the cytotoxicity of docetaxel in human breast cancer cells by mechanisms other than lipoperoxidation, and that GLA-induced transcriptional repression of HER-2/neu oncogene might be one component of the mechanisms of this interaction.
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PMID:Omega-6 polyunsaturated fatty acid gamma-linolenic acid (18:3n-6) enhances docetaxel (Taxotere) cytotoxicity in human breast carcinoma cells: Relationship to lipid peroxidation and HER-2/neu expression. 1513 62

A series of novel nonviral vectors targeting the HER-2/neu gene product human epidermal growth factor receptor-2 (HER2) were constructed and evaluated in breast cancer cell lines to optimize vector formulation for receptor-specific gene transfer. These vectors were DNA/polycation complexes (polyplexes) prepared by mixing, at varying ratios, plasmid DNA carrying a luciferase reporter gene to HerPEI, which is a conjugate of linear polyethylenimine (PEI), a cationic polymer, and trastuzumab (Herceptin), a HER2-specific monoclonal antibody. Transfection studies were carried out in both HER2 overexpressing Sk-Br-3 and HER2 low-expressing MDA-MB-231 breast cancer cells. The HerPEI polyplexes showed significantly greater transfection activity up to 20-folds than nonderivatized PEI-based polyplexes in the Sk-Br-3 cells. The transfection efficiency of targeted polyplexes was dependent on the trastuzumab:PEI ratio and can be blocked by excess free trastuzumab, suggesting HER2-mediated gene delivery. In contrast, no significant difference in transfection activities was observed between HER2-targeted and nontargeted polyplexes in the HER2 low-expressing MDA-MB-231 cells. The transfection efficiency of HerPEI polyplexes was retained in serum-containing medium. In summary, HerPEI polyplexes have shown promising HER2 receptor-specific gene transfer properties and warrant further evaluation as a tumor-targeted vector for gene therapy.
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PMID:Tumor-targeted gene delivery via anti-HER2 antibody (trastuzumab, Herceptin) conjugated polyethylenimine. 1519 62

E-Cadherin regulates epithelial cell adhesion and is critical for the maintenance of tissue integrity. In sporadic diffuse-type gastric carcinoma, mutations of the E-cadherin gene are frequently observed that predominantly affect putative calcium binding motifs located in the linker region between the second and third extracellular domains. A single amino acid change (D370A) as found in a gastric carcinoma patient reduces cell adhesion and up-regulates cell motility. To study the effect of this mutation on the dynamics of cell adhesion and motility in living cells, enhanced green fluorescent protein (EGFP) was C-terminally fused to E-cadherin. The resulting mutant E-cadherin-EGFP fusion protein with a point mutation in exon 8 (p8-EcadEGFP) and a wild-type E-cadherin-EGFP fusion construct (wt-EcadEGFP) were expressed in human MDA-MB-435S cells. Fluorescent images were acquired by time-lapse laser scanning microscopy and E-cadherin was visualized during contact formation and in moving cells. Spatial and temporal localization of p8- and wt-EcadEGFP differed significantly. While wt-EcadEGFP was mainly localized at lateral membranes of contacting cells and formed E-cadherin puncta and plaques, p8-EcadEGFP-expressing cells frequently formed transient cell-cell contacts. During random cell migration, p8-EcadEGFP was found in lamellipodia. In contrast, wt-EcadEGFP localized at lateral cell-cell contact sites in low or non-motile cells. Inhibition of the epidermal growth factor (EGF) receptor, which plays a major role in lamellipodia formation and cell migration, reduced the motility of p8-EcadEGFP-expressing cells and caused lateral membrane staining of p8-EcadEGFP. Conversely, EGF induced cell motility and caused formation of lamellipodia that were E-cadherin positive. In conclusion, our data show that mutant E-cadherin significantly alters the dynamics of cell adhesion and motility in living cells and interferes with the formation of stable cell-cell contacts.
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PMID:Dynamics of cell adhesion and motility in living cells is altered by a single amino acid change in E-cadherin fused to enhanced green fluorescent protein. 1525 55

The growth of human breast tumor cells is regulated through signaling involving cell surface growth factor receptors and nuclear receptors of the steroid/thyroid/retinoid receptor gene family. Retinoic acid receptors (RARs), members of the steroid/thyroid hormone receptor gene family, are ligand-dependent transcription factors, which have in vitro and in vivo growth inhibitory activity against breast cancer cells. RAR-agonists inhibit the proliferation of many human breast cancer cell lines, particularly those whose growth is stimulated by estradiol (E2) or growth factors. Additionally, RAR-agonists and synthetic retinoids such as Ferentinide have been shown to induce apoptosis in malignant breast cells but not normal breast cells. To better define the genes involved in RAR-mediated growth inhibition of breast cancer cells, we used oligonucleotide microarray analysis to create a database of genes that are potentially regulated by RAR-agonists in breast cancer cells. We found that PDCD4 (programmed cell death 4), a tumor suppressor gene presently being evaluated as a target for chemoprevention, was induced about three-fold by the RARalpha-selective agonist Am580, in T-47D breast cancer cells. RAR pan-agonists and Am580, but not retinoid X receptors (RXR)-agonists, stimulate the expression of PDCD4 in a wide variety of retinoid-inhibited breast cancer cell lines. RAR-agonists did not induce PDCD4 expression in breast cancer cell lines, which were not growth inhibited by retinoids. We also observed that antiestrogen and the HER-2/neu antagonist, Herceptin (Trastuzumab), also induced PDCD4 expression in T-47D cells, suggesting that PDCD4 may play a central role in growth inhibition in breast cancer cells. Transient overexpression of PDCD4 in T-47D (ER+, RAR+) and MDA-MB-231 (ER-, RAR-) cells resulted in apoptotic death, suggesting a role for PDCD4 in mediating apoptosis in breast cancer cells. PDCD4 protein expression has previously been reported in small ductal epithelium of normal breast. To date, there has been no report of induction of PDCD4 expression by RAR-agonists, antiestrogen or HER2/neu antagonist in breast cancer cells and its potential role in apoptosis in these cells.
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PMID:Induction of PDCD4 tumor suppressor gene expression by RAR agonists, antiestrogen and HER-2/neu antagonist in breast cancer cells. Evidence for a role in apoptosis. 1536 28

We designed our experiments to evaluate whether fatty acid synthase (FAS), a lipogenic enzyme linked to tumor virulence in population studies of human cancer, is necessary for the malignant transformation induced by Her-2/neu (erbB-2) oncogene, which is overexpressed not only in invasive breast cancer but also in premalignant atypical duct proliferations and in ductal carcinoma in situ of the breast. To avoid the genetic complexities associated with established breast cancer cell lines, we employed NIH-3T3 mouse fibroblasts engineered to overexpress human Her-2/neu coding sequence. NIH-3T3/Her-2 cells demonstrated a significant upregulation of FAS protein expression, which was dependent on the upstream activation of mitogen-activated protein kinase and phosphatidylinositol 3'-kinase/AKT pathways. Remarkably, pharmacological FAS blockade using the mycotoxin cerulenin or the novel small compound C75 completely suppressed the state of Her-2/neu-induced malignant transformation by inhibiting the ability of NIH-3T3/Her-2 cells to grow under either anchorage-independent (i.e., to form colonies in soft agar) or low-serum monolayer conditions. Moreover, NIH-3T3/Her-2 fibroblasts were up to three times more sensitive to chemical FAS inhibitors relative to untransformed controls as determined by MTT-based cell viability assays. In addition, pharmacological FAS blockade preferentially induced apoptotic cell death of NIH-3T3/Her-2 fibroblasts, as determined by an ELISA for histone-associated DNA fragments and by the terminal deoxynucleotidyltransferase (TdT)-mediated nick end labeling assay (TUNEL). Interestingly, the degree of Her-2/neu oncogene expression in a panel of breast cancer cell lines was predictive of sensitivity to chemical FAS inhibitors-induced cytotoxicity, while low-FAS expressing and chemical FAS inhibitors-resistant MDA-MB-231 breast cancer cells became hypersensitive to FAS blockade when they were engineered to overexpress Her-2/neu. Our observations strongly suggest that inhibition of FAS activity may provide a new molecular avenue for chemotherapeutic prevention and/or treatment of Her-2/neu-related breast carcinomas.
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PMID:Pharmacological inhibition of fatty acid synthase (FAS): a novel therapeutic approach for breast cancer chemoprevention through its ability to suppress Her-2/neu (erbB-2) oncogene-induced malignant transformation. 1539 78

The effects of HER-2/neu overexpression on the tumor microenvironment in an aggressive breast cancer xenograft model were investigated. These studies focused on tumors derived following the subcutaneous injection of MDA-MB-435/LCC6 cells transfected with human c-erbB2 (LCC6(HER-2)) into SCID-Rag2M mice. LCC6(HER-2) tumors were more viable (H&E-stained tumor sections) than isogenic vector control tumors (LCC6(Vector)). Correspondingly, a 2.7-fold increase in trypan blue-excluding cells (P = 0.00056) and a 4.8-fold increase in clonogenic cells (P = 0.00146) were noted in cell suspensions derived from disaggregated LCC6(HER-2) versus LCC6(Vector) tumors. Tumor sections stained with the antibody detecting 2-(2-nitro-1H-imidazol-1-yl)-N-(2,2,3,3,3-pentafluoropropyl)-acetamide (EF5), a marker of hypoxia, showed a greater fraction of hypoxic tissue in LCC6(HER-2) tumors compared with control tumors. Flow cytometric analyses based on viable tumor cells (DNA content >/= 2N) in cell suspensions from disaggregated tumors confirmed that there were significantly more EF5-positive cells (i.e., hypoxic) in LCC6(HER-2) than in LCC6(Vector) tumors (16.41 +/- 8.1% and 5.96 +/- 4.1%, respectively; P = 0.0015). Protein levels of phosphorylated (Ser(536)) nuclear factor-kappaB p65 were significantly elevated in LCC6(HER-2) tumors (P = 0.00048), and a trend in increased hypoxia-inducible factor-1alpha protein levels was observed in LCC6(HER-2) compared with LCC6(Vector) tumors. Despite the substantial viable hypoxic cell fraction and a 1.7-fold increase of vascular endothelial growth factor protein (P = 0.05) in LCC6(HER-2) tumors, no significant differences were found (P > 0.05) between LCC6(HER-2) and LCC6(Vector) vasculature (CD31 staining and Hoechst 33342 perfusion). These results suggest that HER-2/neu overexpression may be linked with overall increased tumor viability and a significant increase in the population of viable hypoxic cells, which is not due to differences in tumor vascularization.
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PMID:HER-2/neu overexpression increases the viable hypoxic cell population within solid tumors without causing changes in tumor vascularization. 1556 77

Overexpression and activation of HER-2/neu (also known as c-erbB-2), a proto-oncogene, was found in about 30% of human breast cancers, promoting cancer growth and making cancer cells resistant to chemo- and radio-therapy. Wild-type p53 is crucial in regulating cell growth and apoptosis and is found to be mutated or deleted in 60-70% of human cancers. And some cancers with a wild-type p53 do not have normal p53 function, suggesting that it is implicated in a complex process regulated by many factors. In the present study, we showed that the overexpression of HER-2/neu could decrease the amount of wild-type p53 protein via activating PI3K pathway, as well as inducing MDM2 nuclear translocation in MCF7 human breast cancer cells. Blockage of PI3K pathway with its specific inhibitor LY294002 caused G1-S phase arrest, decreased cell growth rate and increased chemo- and radio-therapeutic sensitivity in MCF7 cells expressing wild-type p53. However, it did not increase the sensitivity to adriamycin in MDA-MB-453 breast cancer cells containing mutant p53. Our study indicates that blocking PI3K pathway activation mediated by HER-2/neu overexpression may be useful in the treatment of breast tumors with HER-2/neu overexpression and wild-type p53.
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PMID:Downregulation of wild-type p53 protein by HER-2/neu mediated PI3K pathway activation in human breast cancer cells: its effect on cell proliferation and implication for therapy. 1562 17

Velcade, a proteasome inhibitor, has been shown to inhibit DNA binding activity of nuclear factor-kappaB (NF-kappaB) and to stabilize p53 in vitro. But its impact, in the context of activated (phosphorylated and translocated) NF-kappaB and the expression of p53, has not been studied in breast cancer. It would be desirable to determine whether or not the immunohistochemical (IHC) expressions of activated NF-kappaB and of p53 can predict the effects of Velcade in viable tumor cells. To answer these questions, we selected 3 breast cancer cell lines (SKBR-3, MDA-175, and MDA-231), which are negative for hormonal receptors, but differ in HER-2/neu expression (strong, mild, and minimal, respectively). The 3 cell lines showed different expressions of phosphorylated (p)- NF-kappaB and p53, as evaluated using immunohistochemistry with visual quantification by brightfield microscopy. After being treated with Velcade for 2 days, MDA-231 cells showed markedly reduced proliferation, followed by SKBR-3 cells, and then by MDA-175 cells. There was strong correlation between the nuclear expression of either p-NF-kappaB or p53 and the inhibitory rate of Velcade in the 3 cell lines (r = 0.987 and 0.807, respectively). Western blotting showed an increase in inhibitor-kappaB (I-kappaB) expression in nuclei of MDA-231 and SKBR-3 cells, but not in MDA-175 cells, following exposure to Velcade. Velcade treatment resulted in cleaved caspase-3 expression in MDA-231 cells and in the overexpression of p53 and p21WAF1 in all 3 cell lines, as evaluated using Western blotting. In summary, morphoproteomic analysis of p-NF-kappaB and p53 can be correlated with the inhibitory effect of Velcade in vitro. We propose that this proliferative inhibition is variably associated with blocking p-NF-kappaB function by upregulation of nuclear I-kappaB, stabilization of p53, and induction of p21WAF1.
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PMID:Intracellular inhibitory effects of Velcade correlate with morphoproteomic expression of phosphorylated-nuclear factor-kappaB and p53 in breast cancer cell lines. 1583 Jul 5

A proportion of breast cancers acquire genetic alterations at 17q11.2-q12 (HER-2/neu), 20q13.2 (ZNF217 gene) and 17p13.1 (p53). We describe a unique technique (Comet-FISH) in which we documented relative genetic instability at p53 and HER-2/neu gene loci within a panel of malignant breast cancer cell lines (MCF-7; MDA-MB-468 and CRL-2336). Furthermore, Comet-FISH data were consistent with preferential repair of the p53 locus following gentoxic insult and suggest that this assay may be quite useful for the study of genetic instability.
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PMID:Detection of genetic instability at HER-2/neu and p53 loci in breast cancer cells sing Comet-FISH. 1586 35

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