Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0006142 (breast cancer)
 160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Ets family of transcription factors regulate expression of multiple genes involved in tumour progression. The aim of this study was to investigate the expression of Ets-1 in a large panel of human breast cancers and relate its levels to the parameters of tumour progression and metastasis. Using RT-PCR, Ets-1 mRNA was detected in 30 out of 42 (71%) fibroadenomas and 131 out of 179 (73%) primary breast carcinomas. Similarly, levels of Ets-1 mRNA were not significantly different in fibroadenomas and primary breast carcinomas. Using Western blotting, four forms of the Ets-1 protein were detected, that is, p33, p42, p51 and p52. Levels of both p51 and p52 but not p33 and p42 were present at significantly higher levels in the carcinomas compared to the fibroadenomas (for p51, P<0.007; for p52, P<0.02; Mann-Whitney U-test). Levels of p52, p51 and p33 correlated significantly with uPA protein levels (P<0.01), while only levels of p52 correlated significantly with HER-2/neu protein levels (P<0.01). Using immunohistochemistry, Ets-1 was found predominantly in tumour cells, but was also detected in some stromal cells surrounding tumour islands. We conclude that, while at the mRNA level, Ets-1 was found at similar levels in fibroadenomas and primary breast carcinomas, higher protein levels were detected in the cancers compared to the benign specimens. Since p52, p51 and p33 correlate with uPA levels, these forms of Ets-1 may play a role in breast cancer metastasis.
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PMID:Overexpression of the Ets-1 transcription factor in human breast cancer. 1633 4

The primary determinant of outcome in patients with cancer is the development of distant metastasis. Metastasis is a multistep process involving disruption of cell-matrix adhesion, dissolution of the extracellular matrix, angiogenesis, invasion in the blood vessel wall, extravasation and establishment of a secondary growth. Nowadays, a large number of biochemical and cell biological studies have indicated the important role of extacellular matrix adhesion molecules, proteinases and angiogenic factors in the dissemination of cancer. Cell adhesion molecules, such as integrins, E-cadherin, catenins and CD44 appear to have some prognostic significance, especially in gastric, colorectal and lung cancer patients. Since matrix degrading proteinases are involved in cancer spread, they should be good candidates as prognostic factors. The proteinase which has been investigated in greatest detail is uPA in breast cancer. As a marker of cancer, its main value is to aid in selecting the subgroups of node-negative breast cancer patients that are unlikely to benefit from adjuvant chemotherapy. Cathepsin D and metalloproteinases (MMPs) look promising prognostic markers but further work is needed to establish their utility. Intratumoral angiogenesis is a putative prognostic indicator for some types of cancer. High expression of the angiogenic factor VEGF is associated with angiogenesis and an unfavourable survival.
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PMID:Tumor markers in cancer patients. an update of their prognostic significance. Part II. 1536 89

Ets proteins are transcription factors, which share a unique DNA binding domain, the Ets domain. Some members of the Ets family are implicated in tumorigenesis. Ets1, the founder of the Ets family, is predominantly expressed in invasive tumors and able to activate certain genes encoding ECM-degrading proteases. We used RNA-interference in combination with DNA chip analysis to identify Ets1-regulated genes in MDA-MB-231 breast cancer cells. Of the Ets1-responsive proteases, matrix metalloproteases MMP1 and MMP9, but not MMP3 or uPA, showed reduced RNA levels when endogenous Ets1 expression was suppressed. These data suggest that Ets1 regulates only a certain subset of ECM-degrading proteases. How Ets1 is regulated in invasive breast cancer cells is unknown. The observations that protein kinase C inhibitors abrogated Ets1 expression and that protein kinase C was able to increase Ets1-dependent transcription imply that protein kinase C is a potential regulator of Ets1 activity in breast cancer cells.
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PMID:Importance of ets1 proto-oncogene for breast cancer progression. 1538 78

A prominent phenotype of plasmin deficiency in mice is reduced metastasis in the MMTV-PymT transgenic breast cancer model. Proteolytically active plasmin is generated from inactive plasminogen by one of 2 activators, uPA or tPA. We now find that uPA deficiency alone significantly reduces metastasis >7-fold in the MMTV-PymT model. We studied a cohort of 55 MMTV-PymT transgenic mice, either uPA-deficient or wild-type controls. Tumor incidence, latency, growth rate and final primary tumor burden were not significantly affected by uPA deficiency. In contrast, average lung metastasis volume was reduced from 1.58 mm(3) in wild-type controls to 0.21 mm(3) in uPA-deficient mice (p = 0.023). Tumor cell dissemination to brachial lymph nodes was also reduced from 53% (28/53) in wild-type controls to 31% (17/54) in uPA-deficient mice (p = 0.032). Mice without plasminogen display a severe pleiotropic phenotype. By comparison, spontaneous phenotypes are modest in uPA-deficient mice, probably because they still have active tPA. We show that metastasis is strongly and selectively decreased in uPA-deficient mice, suggesting that uPA-directed antimetastatic therapy would be efficacious and have limited side effects.
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PMID:Reduced metastasis of transgenic mammary cancer in urokinase-deficient mice. 1547 5

BACKGROUND: Breast cancer cells frequently metastasize to the skeleton and induce extensive bone destruction. Cancer cells produce proteinases, including matrix metalloproteinases (MMPs) and the plasminogen activator system (PAS) which promote invasion of extracellular matrices, but whether these proteinases degrade bone matrix is unclear. To characterize the role that breast cancer cell proteinases play in bone degradation we compared the effects of three human breast cancer cell lines, MDA-MB-231, ZR-75-1 and MCF-7 with those of a normal breast epithelial cell line, HME. The cell lines were cultured atop radiolabelled matrices of either mineralized or non-mineralized bone or type I collagen, the principal organic constituent of bone. RESULTS: The 3 breast cancer cell lines all produced significant degradation of the 3 collagenous extracellular matrices (ECMs) whilst the normal breast cell line was without effect. Breast cancer cells displayed an absolute requirement for serum to dissolve collagen. Degradation of collagen was abolished in plasminogen-depleted serum and could be restored by the addition of exogenous plasminogen. Localization of plasmin activity to the cell surface was critical for the degradation process as aprotinin, but not alpha2 antiplasmin, prevented collagen dissolution. During ECM degradation breast cancer cell lines expressed urokinase-type plasminogen activator (u-PA) and uPA receptor, and MMPs-1, -3, -9,-13, and -14. The normal breast epithelial cell line expressed low levels of MMPs-1, and -3, uPA and uPA receptor. Inhibitors of both the PAS (aprotinin and PA inhibitor-1) and MMPs (CT1166 and tisue inhibitor of metalloproteinase) blocked collagen degradation, demonstrating the requirement of both plasminogen activation and MMP activity for degradation. The activation of MMP-13 in human breast cancer cells was prevented by plasminogen activator inhibitor-1 but not by tissue inhibitor of metalloproteinase-1, suggesting that plasmin activates MMP-13 directly. CONCLUSIONS: These data demonstrate that breast cancer cells dissolve type I collagen and that there is an absolute requirement for plasminogen activation and MMP activity in the degradation process.
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PMID:Human breast cancer cell-mediated bone collagen degradation requires plasminogen activation and matrix metalloproteinase activity. 1570 Nov 64

Activation of nuclear factor-kappaB (NFkappaB) has been linked to the development of hormone-independent, estrogen receptor (ER)-negative human breast cancers. To explore the possibility that activated NFkappaB marks a subset of clinically more aggressive ER-positive breast cancers, NFkappaB DNA-binding was measured in ER-positive breast cancer cell lines and primary breast cancer extracts by electrophoretic mobility shift assay and ELISA-based quantification of specific NFkappaB p50 and p65 DNA-binding subunits. Oxidant (menadione 100 microMx30 min) activation of NFkappaB was prevented by pretreatment with various NFkappaB inhibitors, including the specific IkappaB kinase (IKK) inhibitor, parthenolide (PA), which was found to sensitize MCF-7/HER2 and BT474 but not MCF-7 cells to the antiestrogen tamoxifen. Early stage primary breast cancers selected a priori for lower ER content (21-87 fmol/mg; n=59) and known clinical outcome showed two- to four-fold increased p50 and p65 NFkappaB DNA-binding over a second set of primary breast cancers with higher ER content (>100 fmol/mg; n=22). Breast cancers destined to relapse (13/59) showed significantly higher NFkappaB p50 (but not p65) DNA-binding over those not destined to relapse (46/59; p=0.04). NFkappaB p50 DNA-binding correlated positively with several prognostic biomarkers; however, only NFkappaB p50 DNA-binding (p=0.04), Activator Protein-1 DNA-binding (AP-1; p<or=0.01) and urokinase-type plasminogen activator expression (uPA; p=0.0014) showed significant associations with metastatic relapse and disease-free patient survival. These clinical findings indicate that high-risk ER-positive breast cancers may be prognostically identified by increased NFkappaB p50 DNA-binding, and support preclinical models suggesting that therapeutic inhibition of NFkappaB activation may improve the endocrine responsiveness of high-risk ER-positive breast cancers.
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PMID:Activation of nuclear factor-kappaB (NFkappaB) identifies a high-risk subset of hormone-dependent breast cancers. 1574 83

Cyclooxygenase-2 (COX-2), an inducible enzyme involved in prostaglandin (including PGE(2)) biosynthesis, is overexpressed in several epithelial malignancies including breast cancer. We tested the hypothesis that COX-2 overexpression in breast cancer cells results in increased cell motility and invasion. COX-2 overproducing cells were generated by stable transfection of several human breast cancer cells with pSG5-COX2 vector. We confirmed the overexpression of COX-2 protein by western blotting, and by measuring PGE(2) in the medium with an immunoassay. We measured cell motility by counting the number of cells crossing an 8-micron pore size PET membrane, and cell invasion by counting the number of cells invading through a Matrigel-coated membrane that simulates basement membrane. COX-2 transfected MDA-231 cells produced 30-43-fold more PGE2 as compared to parental cells. COX-2 overexpression increased cell migration approximately 2.2-fold and cell invasion through Matrigel approximately 5.1-fold. Addition of 50 microM NS-398, a COX-2 inhibitor, inhibited Matrigel invasion of MDA-231 cells by 54% as compared to solvent confirming the role of COX-2 in cell invasion. It is known that an increase in cell migration and invasion can be brought about by cytoskeletal alterations and basement membrane degradation due to increased expression of pro-urokinase plasminogen activator (pro-uPA). To investigate the mechanism of our observed increase in cell invasion by COX-2, we found by western blotting that the level of pro-uPA was significantly higher (approximately 5-fold) in COX-2 transfected MDA-231 cells than untransfected MDA-231 cells. Similar to our observations in cell culture, we found evidence that increased COX-2 activity correlates with uPA in a mouse model of breast cancer metastasis to bone. In this study, we conclude that COX-2 overexpression in human breast cancer cells enhances cell motility and invasiveness thus suggesting a mechanism of COX-2 mediated metastasis.
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PMID:COX-2 overexpression increases motility and invasion of breast cancer cells. 1580 33

The serine protease uPA (urokinase-type plasminogen activator) and its receptor uPAR (CD87) are often elevated in malignant tumours, hence, inhibition of this tumour-associated plasminogen activation system provides an attractive target for therapeutic strategies. WX-UK1, a derivative of 3-aminophenylalanine in the L-conformation with inhibitory antiproteolytic properties, was tested for its specificity spectrum using specific chromogenic paranitroanilide peptide substrates. The corresponding D-enantiomer of WX-UK1 was used as a control. The anti-tumour and anti-metastatic (number of lung foci and weight of the axillary lymph nodes) properties were studied by subcutaneous administration of WX-UK1 to Brown Norwegian (BN) rats carrying orthotopically transplanted BN472 rat breast tumours. WX-UK1 selectively inhibited tumour-related proteases from rats and humans such as uPA, plasmin, or thrombin in the sub or low micromolar range. The activity was stereoselective as the D-enantiomer of WX-UK1 inhibited uPA and plasmin at approximately 70-fold higher Ki values than the active L-form. Chronical administration of the L-enantiomer of WXUK1 impaired primary tumour growth and metastasis of BN472 rat breast cancer in a dose-dependent manner. The minimum inhibitory dosage with maximal effect was between 0.15 and 0.3 mg/kg/day. The inactive D-enatiomer of WX-UK1 was not active in this respect. Daily treatment with WX-UK1 for up to 35 days was well tolerated as judged by the unchanged body and organ weight development. In conclusion, our results provide evidence that WX-UK1 as a single agent inhibits breast tumour growth and metastasis in vivo, and thus is a promising candidate drug to treat human cancer.
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PMID:Suppression of rat breast cancer metastasis and reduction of primary tumour growth by the small synthetic urokinase inhibitor WX-UK1. 1584 27

Cancer progression depends on an accumulation of metastasis supporting cell signaling molecules that target signal transduction pathways and ultimately gene expression. Osteopontin (OPN) is one such chemokine like metastasis gene which plays a key signaling event in regulating the oncogenic potential of various cancers by controlling cell motility, invasiveness and tumor growth. We have reported that OPN stimulates tumor growth and nuclear factor kappaB (NFkappaB)-mediated promatrix metalloproteinase-2 (pro-MMP-2) activation through IkappaBalpha/IKK (IkappaBalpha kinase) signaling pathway in melanoma cells. Urokinase type plasminogen activator (uPA), a widely acting serine protease degrades the ECM components and plays a pivotal role in cancer progression. However, the molecular mechanism by which upstream kinases regulate the OPN-induced NFkappaB activation and uPA secretion in human breast cancer cells is not well defined. Here we report that OPN induces the phosphatidylinositol 3'-kinase (PI 3'-kinase) activity and phosphorylation of Akt/PKB (protein kinase B) in highly invasive (MDA-MB-231) and low invasive (MCF-7) breast cancer cells. The OPN-induced Akt phosphorylation was inhibited when cells were transfected with dominant negative mutant of p85 domain of PI 3'-kinase (Deltap85) indicating that PI 3'-kinase is involved in Akt phosphorylation. OPN enhances the interaction between IkappaBalpha kinase (IKK) and phosphorylated Akt. OPN also induces NFkappaB activation through phosphorylation and degradation of IkappaBalpha by inducing the IKK activity. OPN also enhances uPA secretion, cell motility and ECM-invasion. Furthermore, cells transfected with Deltap85 or super-repressor form of IkappaBalpha suppressed the OPN-induced uPA secretion and cell motility. Pretreatment of cells with PI 3'-kinase inhibitors or NFkappaB inhibitory peptide (SN50) reduced the OPN-induced uPA secretion, cell motility and ECM-invasion. Taken together, OPN induces NFkappaB activity and uPA secretion by activating PI 3'-kinase/Akt/IKK-mediated signaling pathways and further demonstrates a functional molecular link between OPN induced PI 3'-kinase dependent Akt phosphorylation and NFkappaB-mediated uPA secretion, and all of these ultimately control the motility and invasiveness of breast cancer cells.
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PMID:Osteopontin: it's role in regulation of cell motility and nuclear factor kappa B-mediated urokinase type plasminogen activator expression. 1601 53

Sp1 regulates the activation of many genes involved in tumor growth, apoptosis, and angiogenesis. We have previously shown the involvement of Sp1 in the up-regulation of urokinase receptor (uPAR) expression, a key molecule in tumor invasion and metastasis. Here, we investigated whether a marked down-regulation of Sp1 activity may inhibit uPAR expression and migration ability of MDA-MB-231 breast cancer cells. To this end, we tested the decoy ability of a novel peptide nucleic acid (PNA)-DNA chimera which carries a central DNA strand, containing Sp1-binding sequence, covalently linked to two PNA fragments at both ends (PNA-DNA-PNA, PDP). The chimera was synthesized, annealed with complementary DNA (PDP-DNA), and then tested for its ability to bind Sp1 both in vitro and in living MDA-MB-231 breast cancer cells in the presence of urokinase (uPA). This PDP-DNA decoy molecule efficiently competes for the binding to endogenous Sp1 in nuclear extracts, and upon transfection with liposomal vectors, causes a marked decrease of available Sp1 in both untreated and uPA-treated MDA-MB-231 cells. Accordingly, both uPA-dependent enhancement of uPAR expression and cell migration were strongly reduced in transfected cells. Interestingly, a detectable inhibitory effect is also observed in breast cancer cells exposed to PDP-DNA in the absence of transfection reagents. Finally, the inhibitory effect of PDP-DNA appeared to be stronger than that observed with oligonucleotides carrying Sp1 consensus sequence. Our findings show that this novel PNA-DNA chimera, containing Sp1 consensus sequence, effectively inhibits Sp1 activity, uPAR expression, and motility of breast cancer cells indicating its potential therapeutic use to prevent tumor dissemination.
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PMID:Inhibition of Sp1 activity by a decoy PNA-DNA chimera prevents urokinase receptor expression and migration of breast cancer cells. 1614 15


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