Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The >30 known members of the Ets multigene family of transcriptional regulators are increasingly being recognized for their involvement in early embryonic development and late tissue maturation, directing stage-specific and tissue-restricted programs of target gene expression. Identifiable primarily by their 85 amino acid ETS DNA-binding domain and dispersed across all metazoan lineages into distinct subfamilies, Ets genes also produce malignancies in humans and other vertebrates when overexpressed or rearranged into chimeras retaining the ETS domain, suggesting that their oncogenic potential is determined by the program of target genes they regulate. Searching for Ets factors that regulate expression of the HER2/
neu
(c-erbB2) oncogene in human breast cancer, we identified a new epithelium-restricted Ets encoding an ETS domain homologous to the Drosophila E74/human Elf-1 subfamily, an amino-terminal region (A-region or Pointed domain) homologous to the distantly related Ets-1 subfamily, and a serine-rich box homologous to the transactivating domain of the lymphocyte-restricted High Mobility Group (HMG) protein, SOX4. Recombinant protein encoded by
ESX
(for epithelial-restricted with serine box) exhibits Ets-like DNA binding specificity in electrophoretic mobility shift assays and, in transient transfection assays, transactivates Ets-responsive promoter elements including that found in the HER2/
neu
oncogene.
ESX
is located at chromosome 1q32 in a region known to be amplified in 50% of early breast cancers, is heregulin-inducible and overexpressed in HER2/
neu
activated breast cancer cells. Tissue hybridization suggests that
ESX
becomes overexpressed at an early stage of human breast cancer development known as ductal carcinoma in situ (DCIS).
...
PMID:ESX: a structurally unique Ets overexpressed early during human breast tumorigenesis. 912 54
Several members of the ETS family of transcription factors contribute to tumorigenesis in many different tissues, including breast epithelium. The
ESX
gene is an epithelial-specific Ets member that is particularly relevant to breast cancer.
ESX
is amplified in early breast cancers, it is overexpressed in human breast ductal carcinoma in situ, and there may be a positive feedback loop between the HER2/
neu
proto-oncogene and
ESX
. Despite this progress in our understanding of
ESX
, its ability to regulate tumor-related gene expression and to modulate breast cell survival, remain unknown. Here we show that HA-
ESX
stimulates the collagenase and HER2/
neu
promoters, but fails to activate an intact stromelysin promoter. However, HA-
ESX
activates, in a dose-dependent manner, a heterologous promoter containing eight copies of the Ets binding site derived from the stromelysin gene (p8Xpal-CAT). Analysis of the ability of constructs encoding nine Ets family members to activate the HER2/
neu
promoter revealed three patterns of gene activation: (1) no effect or repressed promoter activity (Elk-1 and NET); (2) intermediate activity (ER81, GABP,
ESX
, and HA-Ets-2); and, (3) maximal activity (Ets-1, VP-16-Ets-1, and EHF). Based on these observations, we also determined whether
ESX
is capable of conferring a survival phenotype upon immortalized, but nontransformed and
ESX
negative MCF-12A human breast cells. Using a colony formation assay, we found that HA-
ESX
and HA-Ets-2, mediated MCF-12A cell survival rates that approached those generated by oncogenic V12 Ras, whereas empty vector resulted in negligible colony formation. By contrast, in immortalized and transformed T47D breast cancer cells, which express both HER2/
neu
and
ESX
, we found that antisense and dominant-negative HA-
ESX
inhibited T47D colony formation, whereas control vector allowed formation of many colonies. These results are significant because they show that HA-
ESX
is able to differentially activate several malignancy-associated gene promoters, and that
ESX
expression is required for cellular survival of nontransformed MCF-12A and transformed T47D human mammary cells.
...
PMID:The epithelial-specific ETS transcription factor ESX/ESE-1/Elf-3 modulates breast cancer-associated gene expression. 1271 34
ESX
is an epithelial-restricted member of a large family of transcription factors known as the Ets family.
ESX
expression has been shown to be correlated with Her2/
neu
proto-oncogene amplification in highly aggressive breast cancers and induced by Her2/
neu
in breast cell lines, but its role in tumorigenesis is unknown. Previously, we have shown that
ESX
enhances breast cell survival in colony-formation assays. In order to determine whether
ESX
can act as a transforming gene, we stably transfected MCF-12A human mammary epithelial cells with the
ESX
expression vector, pCGN2-HA-
ESX
. The MCF-12A cell line is immortalized, but nontransformed, and importantly, these cells fail to express endogenous
ESX
protein. We used pCGN2-HA-Ets-2 and pSVRas expression vectors as positive controls for transformation. Like HA-Ets-2 and V12-Ras, stable expression of
ESX
induced EGF-independent proliferation, serum-independent MAPK phosphorylation and growth in soft agar. Additionally, stable
ESX
expression conferred increased cell adhesion, motility and invasion in two-dimensional and transwell filter assays, and an epithelial to mesenchymal morphological transition. In three-dimensional cultures, parental and vector control (pCGN2) cells formed highly organized duct-like structures with evidence of cell polarity, ECM adhesion-dependent proliferation and cell survival, and lack of cellular invasion into surrounding matrix. Remarkably, the
ESX
stable cells formed solid, disorganized structures, with lack of cell polarity, loss of adhesion junctions and cytokeratin staining and loss of dependence on ECM adhesion for cell proliferation and survival. In addition,
ESX
cells invaded the surrounding matrix, indicative of a transformed and metastatic phenotype. Taken together, these data show that
ESX
expression alone confers a transformed and in vitro metastatic phenotype to otherwise normal MCF-12A cells.
...
PMID:ESX induces transformation and functional epithelial to mesenchymal transition in MCF-12A mammary epithelial cells. 1476 72
The potential of gene expression profiles to predict the response to neoadjuvant chemotherapy in patients with advanced adenocarcinoma of the esophagus was analyzed. Paraffin-embedded endoscopic esophageal tumor biopsies of 38 patients with advanced esophageal adenocarcinoma (Barrett's adenocarcinoma) were included. All patients underwent two cycles of cisplatin and fluorouracil (5-FU) therapy with or without additional paclitaxel (taxol) followed by abdominothoracal esophagectomy. RNA expression levels of 5-FU-metabolism associated genes thymidylate synthase (TS), thymidine phosphorylase (TP), dihydropyrimidine dehydrogenase (DPD), methylenetetrahydrofolate reductase (MTHFR), MAP7,
ELF3
, as well as of platinum and taxane associated related genes caldesmon, excision cross-complementing genes (ERCC1 and ERCC4) HER2-
neu
, DNA damage-inducible gene 45 (GADD45) and multidrug resistance genes (MDR1, MRP1) were determined using real-time RT-PCR. Expression levels were correlated with the histopathological response to chemotherapy assessed in surgically resected specimens. Responding patients showed significantly higher pretherapeutic expression levels of MTHFR (p = 0.012), Caldesmon (p = 0.016), MRP1 (p = 0.007) and MDR1 (p = 0.025). In addition, patients with high pretherapeutic MTHFR and MRP1 levels had a survival benefit after surgery (p = 0.013 and p = 0.015, respectively). Additionally, intratumoral heterogeneity of gene expression of selected genes (TP, DPD, MTHFR, HER2-
neu
, Caldesmon, ERCC4, MRP1) was additionally verified in 9 untreated Barrett's adenocarcinoma by examination of 5 distinct tumor areas and was observed in 12.7% (5.6%-23.5%, CI 95%) of all cases analyzed. Our results indicate that determination of mRNA levels of a few genes may be useful for the prediction of the success of neoadjuvant chemotherapy in individual cancer patients with advanced adenocarcinoma of the esophagus.
...
PMID:[Prediction of response to neoadjuvant chemotherapy in Barrett's carcinoma by quantitative gene expression analysis]. 1689 54
