Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04626 (erbB-2)
 5,251 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Promoter elements accounting for HER2 (c-erbB-2/neu) overexpression were searched for in several human breast cancer cell lines (MDA-453, BT-474, ZR-75-1, MCF-7) known to express constitutively a 30-fold range in HER2 transcripts per gene copy. HER2 overexpressing cells showed a single prominent DNase I hypersensitive site near a conserved and hitherto unrecognized ets response element (GAGGAA), located 38 bases down-stream from the CAAT box and directly 5' of the TATA box in the human HER2 promoter. Transient transfection of HER2 promoter constructs (0.125, 0.5, and 2.0 kilobase pairs (kb)) demonstrated that the most proximal promoter region (0.125 kb) was capable of conferring up to 30-fold enhanced activity in HER2-overexpressing cell lines relative to low HER2-expressing control lines. Site-directed mutagenesis of the ets response element (GAGGAA-->GAGAGA) caused a > or = 60% reduction in promoter activity affecting at least 0.5 kb of upstream HER2 regulatory sequence. Gel-shift assays with nuclear extracts and oligonucleotide sequences spanning the 0.125-kb promoter region detected an ETS-immunoreactive complex, present most abundantly in cells overexpressing HER2, whose high-affinity binding depended on the GAGGAA response element. Methylation interference confirmed the ETS-specific pattern of protein binding by this complex to guanine bases in the ets response element. UV cross-linking and immunoprecipitation implicate a approximately 60-kDa ETS protein, and candidate ETS genes expressed in these breast cancer cells include GABP alpha, elk-1, elf-1, and PEA3.
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PMID:Binding of an ETS-related protein within the DNase I hypersensitive site of the HER2/neu promoter in human breast cancer cells. 791 92

The PEA3 group of transcription factors belongs to the ets family and is composed of 3 known members, PEA3, ERM and ER81, which are more than 95% identical within the DNA-binding ETS domain and exhibit 50% aa identity overall. Recently, transgenic mice bearing the c-erbB-2/neu oncogene have been shown to over-express PEA3 mRNA in mammary adenocarcinomas, suggesting a role for this gene family in mammary tumorigenesis. In the present work we characterized the mRNA expression levels of PEA3-group genes in a series of human epithelial breast cell lines. Each of the 3 genes was highly expressed in normal human HMEC 1001-7 and HMEC 219-4 cells. In breast-cancer cell lines, the 3 genes were highly expressed in the ER- MDA-MB-436, MDA-MB-330, MDA-MB-231 and BT-20 cell lines, but not in the ER+ MDA-MB-134-VI and ZR-75-1 cells. In an attempt to characterize the PEA3-group proteins in breast-cancer cells, we first produced and characterized specific antibodies against each of these 3 proteins. The anti-ERM and anti-ER81 antibodies recognized specific strong bands at approximately 72 kDa and 62 kDa, corresponding to ERM and ER81, respectively, in MDA-MB-231 and Hs-578T cells expressing significant levels of the 3 mRNAs. No protein was detected in MCF-7 cells expressing low levels of mRNA for PEA3-group-family genes, or in ZR-75-1 cells, where mRNA was undetectable by Northern blot. Although in vitro-translated PEA3 is specifically immunoprecipitated by anti-PEA3 anti-serum, we were unable to immunoprecipitate PEA3 protein from MDA-MB-231 and Hs-578T cells. In order to study the transcription factor activity of ERM, PEA3 and ER81 proteins in mammary-cancer cells, we tested their ability to transactivate a reporter plasmid containing 3 Ets-binding sites, and were able to show that, in all the breast-cancer cells tested, transfected ERM, PEA3 and ER81 are able to transactivate. Although the target genes of the PEA3 group of transcription factors in breast-cancer cells have yet to be determined, these genes have a potential role in the regulation of growth and the progression of human breast cancer.
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PMID:Expression of the PEA3 group of ETS-related transcription factors in human breast-cancer cells. 905 61

Because HER-2/neu overexpression is important in cancer development, we looked for a method of suppressing the cell transformation mediated by HER-2/neu overexpression. We have identified that the DNA-binding protein PEA3, which is encoded by a previously isolated gene of the ets family, specifically targeted a DNA sequence on the HER-2/neu promoter and downregulated the promoter activity. Expression of PEA3 resulted in preferential inhibition of cell growth and tumor development of HER-2/neu-overexpressing cancer cells. This is a new approach to targeting HER-2/neu overexpression and also provides a rationale to the design for repressors of diseases caused by overexpression of pathogenic genes.
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PMID:The ets protein PEA3 suppresses HER-2/neu overexpression and inhibits tumorigenesis. 1065 8

Heregulin (HRG) is one of the groups of polypeptide growth factors that activate the erbB-2 receptor via induction of heterodimerization with erbB-3 and erbB-4 receptors. The biological effects of HRG have been extensively studied. The vast majority of the reports indicate that HRG induces cell growth in breast cancer cells expressing normal levels of erbB-2 and growth inhibition and apoptosis in cells over-expressing erbB-2. However, the mechanism by which HRG promotes cell growth inhibition and apoptosis is still unknown. Previously we reported that constitutive expression of HRG in an erbB-2-overexpressing cell line (SKBr-3) induced growth arrest and apoptosis. We also demonstrated that constitutive expression of HRG promoted a marked morphological change, G2/M delay of the cell cycle, and DNA fragmentation. In this study, we demonstrate the mechanism by which HRG induces these cellular effects. The doubling time of the SK/HRG cells increased in relation to the level of HRG expression, and the level of HRG expression dictates the morphological change of the cells as well as their ability to grow or not grow in an anchorage-independent manner. We demonstrate that these effects are accompanied by downregulation of both erbB-2 and erbB-3 receptors at the transcriptional and translational levels and that down-regulation of the erbB-receptors results in reduced receptor tyrosine phosphorylation. The decrease in erbB-receptor phosphorylation in turn results in a marked reduction of ERK activity and a significant increase in JNK activity. Consequently, overexpression of HRG promoted the expression of PEA3, an Ets nuclear transcription factor. Taken together, our data demonstrate that the cellular effects induced by constitutive expression of HRG in SKBr-3 cells are correlated with the level of HRG expression. This is a first report demonstrating that HRG induction of apoptosis is directly correlated with decreased MAPK activity, increased JNK activity resulting in upregulation of PEA3 and down-regulation of the erbB-2 receptor. Overall, these data provide important clues regarding the mechanism and downstream molecules involved in HRG induction of apoptosis that can be used as targets for therapeutic prevention.
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PMID:Signaling molecules implicated in heregulin induction of growth arrest and apoptosis. 1160 34

Markedly increased levels of cyclooxygenase-2 (COX-2) mRNA, protein, and prostaglandin E(2) synthesis were detected in HER-2/neu-transformed human mammary epithelial cells (184B5/HER) compared with its nontransformed partner cell line (184B5). HER-2/neu stimulated COX-2 transcription via the Ras --> Raf --> MAPK pathway. The inductive effects of HER-2/neu were mediated, in part, by enhanced binding of AP-1 (c-Jun, c-Fos, and ATF-2) to the cyclic AMP-response element (-59/-53) of the COX-2 promoter. The potential contribution of the transcription factor PEA3 was also investigated. Elevated levels of PEA3 were detected in 184B5/HER cells. A PEA3 site (-75/-72) was identified juxtaposed to the cyclic AMP-response element. HER-2/neu-mediated activation of the COX-2 promoter was blocked by mutagenizing the PEA3 site or overexpressing antisense to PEA3. To determine whether HER-2/neu status was also a determinant of COX-2 expression in vivo, we compared levels of COX-2 protein in HER-2/neu-positive and -negative human breast cancers. Increased amounts of COX-2 were detected in HER-2/neu-positive tumors. Taken together, these results suggest that closely spaced PEA3 and cyclic AMP-response elements are required for HER-2/neu-mediated induction of COX-2 transcription. The clear relationship between HER-2/neu status and COX-2 expression in human breast tumors suggests that this mechanism is likely to be operative in vivo.
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PMID:Cyclooxygenase-2 is overexpressed in HER-2/neu-positive breast cancer: evidence for involvement of AP-1 and PEA3. 1190 Nov 51

Breast and ovarian cancers are the leading cause of death for women in many areas in the world including the United States. Overexpression of the HER-2/neu gene (also known as c-erbB2) is a frequent event in about 30% of breast as well as ovarian cancers. The overall survival rates of breast and ovarian cancer patients whose tumors overexpress HER-2/neu are significantly lower than those of patients whose tumors do not overexpress HER-2/neu. Overexpression of HER-2/neu leads to elevated tumorigenicity, enhanced metastatic potential, increased resistance to TNF-alpha-induced apoptosis and resistance to treatments such as paclitaxel and tamoxifen. Down-regulation of the HER-2/neu oncogene causes suppression of the cell-transforming phenotype induced by the oncogene. For example, downregulation of the HER-2/neu gene expression by E1A significantly mitigated tumorigenic activity of human breast and ovarian cancer cells in nude mice. These results strongly imply that HER-2/neu mediated cell transformation may be inhibited by transcriptional repressors that target the promoter of the oncogene. In addition to E1A, we recently identified the ets transcription factor PEA3 as a potential HER-2/neu gene inhibitor. PEA3 binds directly to this consensus binding motif and suppresses the HER-2/neu gene promoter activity. Downregulation of HER-2/neu expression led to inhibition of cell transformation and proliferation in vitro. In a preclinical gene therapy setting, in which the PEA3 gene tumor delivery was facilitated by a cationic liposome DC-Chol, blocked HER-2/neu overexpression by PEA3 resulted in prolonged survival of treated animals. These studies demonstrate a promising approach to cancer gene therapy using transcriptional repressors to target expression of oncogenes such as HER-2/neu.
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PMID:Transcriptional targeting of the HER-2/neu oncogene. 1284 42

Fatty acid synthase (FAS) activity is a potential therapeutic target to treat cancer and obesity. Here, we have identified a molecular link between FAS and HER2 (erbB-2) oncogene, a marker for poor prognosis that is overexpressed in 30% of breast and ovarian cancers. Pharmacological FAS inhibitors cerulenin and C75 were found to suppress p185(HER2) oncoprotein expression and tyrosine-kinase activity in breast and ovarian HER2 overexpressors. Similarly, p185(HER2) expression was dramatically down-regulated when FAS gene expression was silenced by using the highly sequence-specific mechanism of RNA interference (RNAi). Pharmacological and RNAi-mediated silencing of FAS specifically down-regulated HER2 mRNA and, concomitantly, caused a prominent up-regulation of PEA3, a transcriptional repressor of HER2. A cytoplasmic redistribution of p185(HER2) was associated with marked morphological changes of FAS RNAi-transfected cells, whereas chemical inhibitors of FAS promoted a striking nuclear accumulation of p185(HER2). The simultaneous targeting of FAS and HER2 by chemical FAS inhibitors and the humanized antibody directed against p185(HER2) trastuzumab, respectively, was synergistically cytotoxic toward HER2 overexpressors. Similarly, concurrent RNAi-mediated silencing of FAS and HER2 genes synergistically stimulated apoptotic cell death in HER2 overexpressors. p185(HER2) was synergistically down-regulated after simultaneous inhibition of FAS and HER2 by either pharmacological inhibitors or small interfering RNA. These findings provide evidence of an active role of FAS in cancer evolution by specifically regulating oncogenic proteins closely related to malignant transformation, strongly suggesting that HER2 oncogene may act as the key molecular sensor of energy imbalance after the perturbation of tumor-associated FAS hyperactivity in cancer cells.
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PMID:Inhibition of fatty acid synthase (FAS) suppresses HER2/neu (erbB-2) oncogene overexpression in cancer cells. 1523 25

Olive oil is an integral ingredient of the "Mediterranean diet" and accumulating evidence suggests that it may have a potential role in lowering the risk of several types of cancers. The mechanisms by which the cancer-preventing effects of olive oil can be performed, however, are not known. We recently hypothesized that a novel molecular explanation concerning the anti-cancer actions of olive oil may relate to the ability of its monounsaturated fatty acid (MUFA) oleic acid (OA; 18:1n-9) to specifically regulate cancer-related oncogenes. Supporting our hypothesis, exogenous supplementation of cultured breast cancer cells with physiological concentrations of OA was found to suppress the overexpression of HER2 (Her-2/neu, erbB-2), a well-characterized oncogene playing a key role in the etiology, progression and response to chemotherapy and endocrine therapy in approximately 20% of breast carcinomas. OA treatment was also found to synergistically enhance the efficacy of trastuzumab, a humanized monoclonal antibody binding with high affinity to the ectodomain (ECD) of the Her2-coded p185(HER2) oncoprotein. Moreover, OA exposure significantly diminished the proteolytic cleavage of the ECD of HER2 and, consequently, its activation status, a crucial molecular event that determines both the aggressive behavior and the response to trastuzumab of Her2-overexpressing breast carcinomas. Our most recent findings further reveal that OA exposure may suppresses HER2 at the transcriptional level by up-regulating the expression of the Ets protein PEA3 -a DNA-binding protein that specifically blocks HER2 promoter activity- in breast, ovarian and stomach cancer cell lines. This anti-HER2 property of OA offers a previously unrecognized molecular mechanism by which olive oil may regulate the malignant behavior of cancer cells. From a clinical perspective, it could provide an effective means of influencing the outcome of Her-2/neu-overexpressing human carcinomas with poor prognosis. Indeed, OA-induced transcriptional repression of HER2 oncogene may represent a novel genomic explanation linking "Mediterranean diet", olive oil and cancer as it seems to equally operate in various types of Her-2/neu-related carcinomas.
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PMID:Mediterranean diet, olive oil and cancer. 1663 35

The ETS protein PEA3 functions as a transcription factor to regulate gene expression. Although members of the ETS family have been reported to be involved in tumor progression, ectopic expression of PEA3 has been shown to suppress tumor formation. Despite several studies demonstrated frequent expression of PEA3 and its high association with HER-2/neu and have suggested a potential role of PEA3 in breast cancer, contradictory result has shown that the PEA3 was associated with better survival rate in breast cancer. In the current study, we address this discrepancy by examining the expression of PEA3 and HER-2/neu on 289 archived breast cancer tumor tissues and their correlation with clinicopathologic factors and prognosis. The staining of PEA3 was further validated by in situ hybridization for PEA3 mRNA. We found PEA3 was positive in 22.2% (64/289) of all cases and only 25.6% (21/82) of HER-2/neu-overexpressing cases showed co-expression of PEA3. In contrast to HER-2/neu, PEA3 expression was not correlated with prognosis or major clinicopathologic factors, except for a negative correlation with lymphovascular permeation ( p=0.007). This study demonstrates that PEA3 expression is not correlated with HER-2/neu expression in breast cancer tumor tissues, nor is it associated with adverse clinicopathologic factors or prognosis.
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PMID:Expression of PEA3 and lack of correlation between PEA3 and HER-2/neu expression in breast cancer. 1675 78

The final proof about the specific mechanisms by which the different components of olive oil, the principal source of fat in a typical "Mediterranean diet", exert their potential protective effects on the promotion and progression of several human cancers requires further investigations. A recent discovery that dietary fatty acids can interact with the human genome by regulating the amount and/or activity of transcription factors has opened a whole new line of research aimed to molecularly corroborate the ant-cancer benefits of the olive oil-based Mediterranean diet and the underlying mechanisms. Our most recent findings reveal that oleic acid (OA; 18:1n-9), the main olive oil's monounsaturated fatty acid, can suppress the overexpression of HER2 (erbB-2), a well-characterized oncogene playing a key role in the etiology, invasive progression and metastasis in several human cancers. First, exogenous supplementation with physiological concentrations of OA significantly down-regulates HER2-coded p185(Her-2/neu) oncoprotein in human cancer cells naturally harboring amplification of the HER gene. Second, OA exposure specifically represses the transcriptional activity of the human HER2 gene promoter in tumor-derived cell lines naturally exhibiting HER2 gene amplification and p185(Her-2/neu) protein overexpression but not in cancer cells expressing physiological levels of HER2. Third, OA treatment induces the up-regulation of the Ets protein PEA3 (a transcriptional repressor of the HER2 gene promoter) solely in cancer cells naturally displaying HER2 gene amplification. Fourth, HER2 gene promoter bearing a PEA3 site-mutated sequence cannot be negatively regulated by OA, while treatment with OA fails to repress the expression of a human full-length HER2 cDNA controlled by a SV40 viral promoter. Fifth, OA-induced inhibition of HER2 promoter activity does not occur if HER2 gene-amplified cancer cells do no concomitantly exhibit high levels of Fatty Acid Synthase (FASN; Oncogenic antigen-519) as specific depletion of FASN, which itself similarly suppresses HER2 overexpression by inducing PEA3-dependent repression of HER2 gene promoter, strongly antagonizes the inhibitory effects of OA on HER2 gene promoter activity. Considering that OA treatment efficiently blocks FASN activity and down-regulates FASN protein expression, it is reasonable to suggest that an accumulation of supra-physiological concentrations of the FASN substrate malonyl-CoA, due to its reduced utilization by FASN in the presence of exogenous OA, appears to act as an indicator of "cell fuel" availability capable to suppress HER2 expression via formation of inhibitory "PEA3 protein-PEA3 DNA binding site" complexes on the endogenous HER2 promoter. Indeed, malonyl-CoA on its own dramatically decreases HER2 promoter activity, while OA or malonyl-CoA similarly up-regulates PEA3 gene promoter activity. This previously unrecognized ability of OA to directly affect the expression of a cluster of interrelated human cancer genes (i.e., HER2, FASN and PEA3) should open a new line of research aimed to explore the anti-cancer effects of OA. Certainly, an appropriate dietary intervention reproducing this prominent anti-oncogenic feature of the "Mediterranean diet" must be carried out in animal models and human pilot studies in the future. Only then we will know whether the old "Mediterranean dietary traditions" will become a new molecular approach in the management of cancer disease.
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PMID:Mediterranean dietary traditions for the molecular treatment of human cancer: anti-oncogenic actions of the main olive oil's monounsaturated fatty acid oleic acid (18:1n-9). 1716 66


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